Plane on a conveyor belt

Guest

I love this topic.

thrash

a real aircraft on a conveyer belt moving backwards with its engines off will be pushed backwards, off the belt, because the tires and wheel hubs are not frictionless

turning on the engines will cause the plane to have a forward acceleration, but whether or not that counteracts the backwards motion of the belt depends on the specifics involved

if the belt is not powered via an external source, the plane definitely takes off

JN210

if it just stopped (the belt) then the plane should rocket forward...thus making it go up?:icon_scratch: (assuming there is more runway)

Guest

JN210;199258 wrote:
if it just stopped (the belt) then the plane should rocket forward...thus making it go up?:icon_scratch: (assuming there is more runway)

Nope, the plane doesn't care about the belt while its moving, so it won't care if it stops moving either.

Guest

thrash;199257 wrote:
a real aircraft on a conveyer belt moving backwards with its engines off will be pushed backwards, off the belt, because the tires and wheel hubs are not frictionless

Correct

turning on the engines will cause the plane to have a forward acceleration, but whether or not that counteracts the backwards motion of the belt depends on the specifics involved

Assuming the plane is capable of moving forward on a normal runway, it will be capable of it on this conveyor as well.

if the belt is not powered via an external source, the plane definitely takes off

Doesn't matter how its powered, plane takes off. The question could read "conveyor matches speed of plane at twice the normal rate" and the plane still takes off

I still love this thread.

JN210

oh, I really don't know anything about physics and stuff...I'm just kinda throwin out ideas...

thrash

[quote]turning on the engines will cause the plane to have a forward acceleration, but whether or not that counteracts the backwards motion of the belt depends on the specifics involved

Assuming the plane is capable of moving forward on a normal runway, it will be capable of it on this conveyor as well.
[/quote]

I am unconvinced. Why do you say that? Suppose that the plane develops only enough thrust to move it forward at 1mph (and never any faster, due to power and aerodynamic reasons not really seen on a real aircraft). Further suppose that the (powered) belt moves backwards with such violence that the plane, due to the friction in the wheels and tires, is going to be pushed back at somethingl like 200 mph. The plane certainly is not going to move forward in this situation.

[quote]
if the belt is not powered via an external source, the plane definitely takes off

Doesn't matter how its powered, plane takes off. The question could read "conveyor matches speed of plane at twice the normal rate" and the plane still takes off
[/quote]

I don't think so. See my point above -- if the belt develops so much reward motion on the plane such that the planes engines, at full thrust, are unable to make forward progress vs the belt, then by the same token, the plane is not making forward motion through the air, and thus, there's no lift, and no liftoff.

The reason i gave a cautious answer is because i can envision a system of engine output so low and wheel friction so high that the plane, at full throttle, on a powered belt, will either stay stationary or move backwards.

Guest

thrash;199263 wrote:
I am unconvinced. Why do you say that? Suppose that the plane develops only enough thrust to move it forward at 1mph (and never any faster, due to power and aerodynamic reasons not really seen on a real aircraft). Further suppose that the (powered) belt moves backwards with such violence that the plane, due to the friction in the wheels and tires, is going to be pushed back at somethingl like 200 mph. The plane certainly is not going to move forward in this situation.

I'm assuming no mechanical failures. I figured that was a given. So long as the plane is capable of getting the plane moving forward on the belt in the first place, it will continue moving it forward, completely unhindered by the belt (barring mechanical failure of bearings) Besides, the belt matches the planes forward speed. Once the static friction of the wheels is overcome, the plane will continue moving forward.

I don't think so. See my point above -- if the belt develops so much reward motion on the plane such that the planes engines, at full thrust, are unable to make forward progress vs the belt, then by the same token, the plane is not making forward motion through the air, and thus, there's no lift, and no liftoff.

This is impossible. Speed has very little to do with the friction of the bearings/wheels. Actually, the faster something spins, the less friction there is (until it becomes unbalanced and starts spinning erratically, causing wobbles and binding at the bearings resulting in overheating and malfunction)

The reason i gave a cautious answer is because i can envision a system of engine output so low and wheel friction so high that the plane, at full throttle, on a powered belt, will either stay stationary or move backwards.

Ok, IF you could have that much friction AND that little power to keep the plane motionless, sure, the plane won't take off. But then it wouldn't take off regularly either.

(tjamz is too lazy to use quote tags)

MisterCMK

tjamz;199249 wrote:
Posts like this make me want to cry.

What part of the riddle makes you think the plane remains stationary?

Please explain to me the physics involved that would be required for a conveyor belt to hold a plane stationary. It is IMPOSSIBLE.

Ok, maybe you are referring to the alternate version of this riddle which states that the conveyor matches wheel speed in the opposite direction.....but wait, the only way to match the wheel speed would be for the conveyor and the plane to be traveling in the same direction (with the conveyor moving at 1/2 the speed of the plane which would mean the wheels would be spinning at 1/2 of their normal rate as well causing the conveyor and the wheels to be matched in speed) which certainly won't stop the plane from taking off either.

In your inline reply with his quote, I think that the word you are looking for is "regardless"

MisterCMK

JN210;199258 wrote:
if it just stopped (the belt) then the plane should rocket forward...thus making it go up?:icon_scratch: (assuming there is more runway)

No, remember that the wheels are free spinning

DaveH

I can't believe this topis is still being discussed. LOL

Maybe this will help... lets assume the jet engines are at full thrust, and the conveyor is moving like a mofo and you locked up the brakes on the plane. Would the plane come to a stop on the conveyor, or would the thrust of the engines keep pushing the plane forward just grinding the tires into a smoking pile? Of course it depends on the thrust of the engines, but I'd venture to guess that the majority of planes would continue accelerating even with the wheels locked up. The idea of the conveyor affecting the plane much at all with the brakes off is silly. Yes, there is a small amount of friction in the wheel bearings, but it's negligable.

Example 2: You have a baby stroller with a small jet engine in it, you get on the treadmill with the stroller and start pushing it. You stay in place in relationship to the ground as the treadmill matches your walking pace. You fire up the jet engine... what happens?

MisterCMK

It makes me lawlz at how some people try to change the entire nature or parameters of the question to try and prove their tiny point.

MisterCMK

DaveH;199269 wrote:
Example 2: You have a Supra with a small jet engine in it...You fire up the jet engine... what happens?

O RLY?

New mod for next year?

thrash

if the conveyer belt is powered externally it is possible to concoct a scenario where the plane doesn't move forward enough, relative to the air, to take off.

Disagreeing with this is foolhardy -- it's the same argument as saying that you don't slow down when trying to swim against a current. A powered belt does counteract the forward motion of the plane, and to what extent depends on the belt and on the construction of the plane.

an externally powered, moving belt, DOES exert a force on the plane, and, in the absence of sufficient force vector opposite in direction, will cause the plane to move backwards. If the thrust of the engines is less than the force of the belt moving the plane backwards, the plane will move backwards.

Here's a fun experiment: a car (with tires), with its brakes off and in neutral is on a conveyer belt, rolling backwards. You are at the end of the belt, and behind you is a wall. Your job is to hold the car on the belt. You can use both arms if you want to.

Do you have to exert any effort to keep the car from crushing you? If so, how much?

I welcome anyone that thinks that it doesn't matter what the belt is doing to stand behind the car in my picture

You'll note that i didn't chime in on this thread until people started saying "no matter what, it takes off". I agree that in the problem, as stated, the plane takes off.

However, insofar as someone is willing to make an absolute statement that the plane takes off, irrespective of how the belt is moving or how it is powered, I think they are incorrect.

JN210

Ok, the plane will NOT take off. A plane needs airlift to take off...and unless the air around the plane and the whole conveyor contraption is moving very fast (fast enough to lift a plane) it will not fly.....now if it was a rocket ship...that would be a different story due to it having rockets.

Info provided by my physics teacher:)

Guest

thrash;199273 wrote:
if the conveyer belt is powered externally it is possible to concoct a scenario where the plane doesn't move forward enough, relative to the air, to take off.

Only if the plane doesn't operate like a normal plane can the conveyor exert enough force to stop the plane, but in that case, the plane wouldn't take off either way.

Disagreeing with this is foolhardy -- it's the same argument as saying that you don't slow down when trying to swim against a current. A powered belt does counteract the forward motion of the plane, and to what extent depends on the belt and on the construction of the plane.
**
An airboat does not slow down going upstream or downstream in the current, nor does a seaplane.**

an externally powered, moving belt, DOES exert a force on the plane, and, in the absence of sufficient force vector opposite in direction, will cause the plane to move backwards. If the thrust of the engines is less than the force of the belt moving the plane backwards, the plane will move backwards.

Again, if the plane has enough power to move forward on a stationary ground, it has enough power to move forward on a belt.

Here's a fun experiment: a car (with tires), with its brakes off and in neutral is on a conveyer belt, rolling backwards. You are at the end of the belt, and behind you is a wall. Your job is to hold the car on the belt. You can use both arms if you want to.

Do you have to exert any effort to keep the car from crushing you? If so, how much?

Yes, but once I get the car stopped from rolling backwards, you can crank that belt up as high as you want and the difference in force required becomes negligible. IOW once I have the car stopped on the belt, it doesn't matter if the belt is moving 5mph or 500mph.

I welcome anyone that thinks that it doesn't matter what the belt is doing to stand behind the car in my picture

You changed the parameters of the question though. The question says the belt matches the planes speed, and once the wheels are rolling, the plane will have no problem maintaining forward momentum.

You'll note that i didn't chime in on this thread until people started saying "no matter what, it takes off". I agree that in the problem, as stated, the plane takes off.
**
It takes off pretty much no matter what......if you have a long enough belt, and large enough fuel cell, you can get that belt moving 300mph prior to firing up the jets and the plane will (in time...has to overcome momentum only) move forward and take off. Also at some point, the wind resistance of being pushed backwards will cause the plane to not move a slowly backwards and start its wheels rolling**

However, insofar as someone is willing to make an absolute statement that the plane takes off, irrespective of how the belt is moving or how it is powered, I think they are incorrect.

Sorry, I guess I meant in relation to the riddle...and I clarified my points above.

Clarified for ya

Guest

JN210;199274 wrote:
Ok, the plane will NOT take off. A plane needs airlift to take off...and unless the air around the plane and the whole conveyor contraption is moving very fast (fast enough to lift a plane) it will not fly.....now if it was a rocket ship...that would be a different story due to it having rockets.

Info provided by my physics teacher:)

Your physics teacher should be fired. Period. Feel free to show them my post here, if they have a problem with that statement, they can call me at 701-541-3484. I am dead serious. He/She should be fired.

thrash

JN210;199274 wrote:
Ok, the plane will NOT take off. A plane needs airlift to take off...and unless the air around the plane and the whole conveyor contraption is moving very fast (fast enough to lift a plane) it will not fly.....now if it was a rocket ship...that would be a different story due to it having rockets.

Info provided by my physics teacher:)

that's what makes it a riddle though -- the "Trap" here is to assume the plane remains stationary w.r.t. the ground (and thus the air). Yes, if the plane were driven by its wheels and the belt counteracted that perfectly, there'd be no air movement over the wings, and thus, no lift, and thus, no take off.

However, because it's driven by thrust, and not it's wheels, it will tend to roll forward on the runway like normal. In the case of an undriven belt, the belt is more likely to move with the plane than against it..depending on where the highest/lowest frictional intersections in the system are.

The point i am raising is if the belt is moving the plane backwards via some external power source, then the plane MAY not take off, and it depends on the details of how fast the belt is going, what the wheels are built like, what the takeoff stall speed is, and what kind of thrust the engines develop.

JN210

but when its on a runway there is airlift.....no runway....stationary belt = no lift.

JN210

tjamz;199277 wrote:
Your physics teacher should be fired. Period. Feel free to show them my post here, if they have a problem with that statement, they can call me at 701-541-3484. I am dead serious. He/She should be fired.

woah...easy, I just asked him if it would take off and he simply gave me an answer.