Solving Chain Work Problem: Find mgh | Physics Homework Help

In summary, the conversation discusses the calculation of potential energy in a chain being lifted up to a roof. One person suggests integrating the equation, while another suggests considering the external agent doing work against gravity. The correct answer is determined to be 20g by integrating and considering the first and last links being hauled up different distances.
  • #1
yecko
Gold Member
279
15

Homework Statement


TdPWVgr.png

http://i.imgur.com/TdPWVgr.png

Homework Equations


WD=mgh

The Attempt at a Solution


mass per length=0.8kg/m
mgh= ∫(0,10)(0.8g(10-y))dy=[8gy-0.4y^2g](0,10)=80g-40g=40g
However, the answer is 20g
whats wrong with my calculation?
thanks
 
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  • #2
What is 10-y in your equation ?
 
  • #3
BvU said:
What is 10-y in your equation ?
the height the chain need to travel for each horizontal slice
 
  • #4
I thought you were integrating the force needed to do the work ...

But as for the height: then what are the limits of your integration ?
 
  • #5
BvU said:
limits of your integration
0 to10
BvU said:
I thought you were integrating the force needed to do the work ...
So what is your way to do so?
thanks
 
  • #6
yecko said:
0 to10
No. Half the chain can be left as is.
So what is your way to do so?
comes down to the same thing.
Note that not everything has to be dragged up all the way to the roof... so you have to revise the 10-y
 
  • #7
Question: What is the change in potential energy of the center of mass?
 
  • #8
yecko said:
whats wrong with my calculation?
I suggest you are making an assumption about how the bottom of the chain is to be lifted up. You perhaps are imagining standing on the roof, hauling manually, no equipment. I can think of two alternatives that would lead to the lower answer.
 
  • #9
kuruman said:
Question: What is the change in potential energy of the center of mass?
Half of the chain means the center has zero change?
Does that mean the limit of y is 0 to 5
And the h=2(5-y)?
 
  • #10
yecko said:
Half of the chain means the center has zero change?
Does that mean the limit of y is 0 to 5
And the h=2(5-y)?
Are you trying to do it by integration for the algebraic exercise? There is a rather simpler approach.
 
  • #11
If not by integration, the simpler approach referred to by @haruspex would be to consider that the external agent that lifts the chain, does work against gravity equal to the change in gravitational potential energy of the center of mass.
HangingChain.png
 
  • #12
Oh yes! 0.8*5*5g=20g
Right!But what if i need to integrate it? For instance the number of the question is not that perfect?
yecko said:
Does that mean the limit of y is 0 to 5
And the h=2(5-y)?
By mgh, what's wrong with these numbers?
 
  • #13
10-2y is correct. The first link has to be hauled up 10 m, the last one can stay in position. The one at e.g. y = 4 m goes up only 2 m.
 
  • #14
Thanks
intergrate mgh=0.8g(10-2y) from 0 to 5 =20g
Finally got it!
 

Related to Solving Chain Work Problem: Find mgh | Physics Homework Help

1. What is the formula for solving a chain work problem?

The formula for solving a chain work problem is mgh, where m is the mass of the object, g is the acceleration due to gravity, and h is the height of the object.

2. How do I determine the mass of the object in a chain work problem?

In order to determine the mass of the object, you will need to know the weight of the object, which is given in Newtons. Then, you can use the formula W = mg (where W is weight and g is the acceleration due to gravity) to solve for m, the mass of the object.

3. What is the value of g in a chain work problem?

The value of g in a chain work problem is typically 9.8 m/s^2, which is the standard value for acceleration due to gravity on Earth.

4. Can I use the chain work formula for objects on other planets?

No, the chain work formula mgh is specific to objects on Earth. The value of g can vary on other planets, so a different formula would need to be used.

5. What units should be used for the height in a chain work problem?

The height in a chain work problem should be measured in meters (m). If the height is given in a different unit, it will need to be converted to meters before plugging it into the formula mgh.

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