2 Conveyors with different speeds

AI Thread Summary
The discussion revolves around calculating the time it takes for a hockey puck to pass over two conveyor belts with different speeds. The user is trying to understand the transition of the puck from Conveyor A to Conveyor B, considering factors like speed, distance, and friction. There is confusion about whether to assume constant acceleration or instantaneous speed transfer as the puck moves onto Conveyor B. Participants emphasize the importance of the coefficient of friction in determining the puck's acceleration and the need for a more detailed analysis of the forces involved. The conversation highlights the practical application of these calculations in real-life conveyor belt scenarios.
omarmorocci
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(mentor note: moved here from a non-homework thread)

Hello
I am trying to find the time it will take for a parcel to pass over one conveyor belt
upload_2017-3-30_14-6-40.png


The conveyor on the right is Conveyor A The conveyor on the left is Conveyor B
they both have a length of 700mm
Conveyor A has a constant speed of X
Conveyor B has a constant speed of Y
The hockey pick has a radius of 80 mm
The coefficient of friction is Z
the hockey puck is initially moving at speed X

I need to find the time it will take for the parcel to pass completely over Conveyor B ( shown with arrow in picture).
 
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This looks like homework. We cannot solve it for you.

Please show some work so we can provide some hints to help you work it out.
 
jedishrfu said:
This looks like homework. We cannot solve it for you.

Please show some work so we can provide some hints to help you work it out.

Hello,

I am actually looking for a way to start as I am not sure how to approach it.

Here's what I have so far:
upload_2017-3-30_15-2-50.png


The question I believe lies at the point where the puck crosses from the first conevyor belt to the second.
I have this force diagram but I am not sure if it's right
 
omarmorocci said:
Hello,

I am actually looking for a way to start as I am not sure how to approach it.

Here's what I have so far:
View attachment 115271

The question I believe lies at the point where the puck crosses from the first conevyor belt to the second.
I have this force diagram but I am not sure if it's right
You need to consider a more general state during the cross-over. When there is a length x on conveyor B, how much weight will be on that conveyor? You will have to make some reasonable/idealised assumptions to answer this.
 
haruspex said:
You need to consider a more general state during the cross-over. When there is a length x on conveyor B, how much weight will be on that conveyor? You will have to make some reasonable/idealised assumptions to answer this.

I generalized the problem to get an approximate answer.
I removed the conveyor belt on the right and just assumed that the hockey puck has a speed of X when introduced on to the conveyor belt on the left
So U ( initial speed) = X
V ( final speed) = Y
S (distance) = 700
T (time taken)= T

I assumed that the acceleration is constant, hence s = (U+V)/2 *T

Is this approach correct to get an approximate answer ?
 
omarmorocci said:
Is this approach correct to get an approximate answer ?
No. Imagine making the B conveyor much longer. The distance the puck travels on B before coming to the same speed as B does not keep increasing. It is controlled by the coefficient of friction.
You could get an approximate answer by just supposing the puck is dropped onto B with the horizontal speed of A and calculating the time it would take to accelerate to the speed of B. But if that were the expected solution I do not see why they would have given you the 9mm separation distance.
 
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haruspex said:
No. Imagine making the B conveyor much longer. The distance the puck travels on B before coming to the same speed as B does not keep increasing. It is controlled by the coefficient of friction.
You could get an approximate answer by just supposing the puck is dropped onto B with the horizontal speed of A and calculating the time it would take to accelerate to the speed of B. But if that were the expected solution I do not see why they would have given you the 9mm separation distance.
It's not a homework questions, I am actually working with conveyor belts and need to calculate the speed the conveyor B based on time it takes for the parcel (hockey puck) to pass conveyor B. So this is real life problem not a homework.

With that said being said. Your second part suggesting calculating the time it would take for the puck to reach speed B, how do I do that ?
I figured that the puck would instantly have the speed of conveyor B as the puck won't slide and hence it will have a speed of 0 relative to the belt
 
omarmorocci said:
I figured that the puck would instantly have the speed of conveyor B
But in your earlier attempt you assumed a constant acceleration.
You quote a coefficient of friction. Is that kinetic or static? If it is kinetic, what is the frictional force when sliding? What acceleration does that give?
 

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