Need help with Basic Kinematics question

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The discussion centers on calculating the force with which a stainless steel coil, weighing 497.3 slugs, hits the ground after falling for 0.75 seconds. Participants highlight that the force of impact depends on the type of collision and the object's deformation characteristics, suggesting that the problem lacks sufficient information for a definitive answer. The final velocity of the coil upon impact is calculated to be 24.15 ft/s, and momentum calculations are discussed as an alternative approach. The conversation concludes with a consensus that calculating momentum may be the most viable solution given the uncertainties in the problem. Overall, the participants emphasize the importance of understanding the context of the collision to accurately determine the force of impact.
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Homework Statement



Here is my question: A crane is moving a stainless steel coil weighing 497.3 slugs. The crane's cable snaps and the coil falls for 3/4 seconds before hitting the ground. What is the FORCE the coil hits the ground with?



Homework Equations



F=ma
PE=KE??


The Attempt at a Solution



I have already converted slugs to lbf...
F = ma = 497.3 slugs= 497.3 lbf s^2/f * 32.2 f/s^2= 16013.06 lbf

Now I am feeling pretty stupid trying to figure out how to calculate the force that it hits the ground with. I am sure I have to use the .75 seconds somewhere, but for some reason can't figure it. Any help? Thanks! :)
 
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The force it hits the ground at depends on how easily the object deforms. Are you sure the question wasn't asking for the momentum with which it hits the ground?

You've already written down the force on the object due to gravity, and you have the time it falls for. Now it is straightforward to calculate the accumulated momentum of the object.
 
gretchenm said:

Homework Statement



Here is my question: A crane is moving a stainless steel coil weighing 497.3 slugs. The crane's cable snaps and the coil falls for 3/4 seconds before hitting the ground. What is the FORCE the coil hits the ground with?



Homework Equations



F=ma
PE=KE??


The Attempt at a Solution



I have already converted slugs to lbf...
F = ma = 497.3 slugs= 497.3 lbf s^2/f * 32.2 f/s^2= 16013.06 lbf

Now I am feeling pretty stupid trying to figure out how to calculate the force that it hits the ground with. I am sure I have to use the .75 seconds somewhere, but for some reason can't figure it. Any help? Thanks! :)

Well i guess you must use, F = dp/dt

but dt here won't be 3/4. 3/4 is time of falling from which you will calculate final velocity ...
 
Hmm, I agree with your statement about the force depending on how easily the object deforms. Do we have to use the elasticity modulus of stainless steel in there somewhere, maybe? I think it is 180 x 10^9 N/m^2 if I looked it up correctly.
 
So then final velocity would be...
v(f)=0+32.2 (.75)=24.15 ft/s...right? Then where can we go with this?
 
gretchenm said:
So then final velocity would be...
v(f)=0+32.2 (.75)=24.15 ft/s...right? Then where can we go with this?

As BruceW said, the force of collision depends of type of collision (elastic or inelastic) and time of collision.
 
So I think what I am getting from the answers that have been posted, is that this is a question that does not give enough information to correctly answer...how would I go about calculating the momentum then? Would it just be 16013.06 lbf times the final velocity of 24.15 ft/s? (386715.399 lbf ft/s*1.355817948=524315 J/s) I just used a conversion factor I looked up to get SI units. Anyone agree with this calculation? (or not..)
 
gretchenm said:
So I think what I am getting from the answers that have been posted, is that this is a question that does not give enough information to correctly answer...how would I go about calculating the momentum then? Would it just be 16013.06 lbf times the final velocity of 24.15 ft/s? (386715.399 lbf ft/s*1.355817948=524315 J/s) I just used a conversion factor I looked up to get SI units. Anyone agree with this calculation? (or not..)

I did not see the values but method is fine. p=mv !
And yes the info. given is not enough. But maybe the questions has some assumptions that author thought will be obvious to a reader, perhaps a note before starting a series of questions.
 
Yeah, I think I am just going to stick with calculating momentum and be done with this! Thanks everyone for all of the input! :)
 
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