Finding quantity of energy stored in a spring

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The discussion focuses on calculating the energy stored in a spring, specifically addressing two parts of a homework problem. For Part A, the work required to stretch the spring from 0 to 20 cm was calculated as 125J using the formula for work done on a spring. In Part B, the energy stored when the spring is stretched 7.753 cm was attempted using the elastic energy formula Ee= 1/2kx^2, but there was confusion regarding the spring constant and unit conversions. Participants emphasized the importance of converting units to standard measurements before calculations. Ultimately, the correct energy stored in the spring was found to be approximately 0.01875J after addressing the unit issues.
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Homework Statement


Hey guys, I'm having some trouble finding the exact quantity of energy storied in this spring problem.
It's like a problem with parts A and B, part A says "Determine the amount of work required to stretch the spring from 0 to 20 cm. I found that to be 125J. For Part B, it says "Suppose that this spring was stretched 7.753 cm. Find the exact quantity of energy stored in the spring.


Homework Equations


I think that the equation that i would use is the one for elastic energy, Ee= 1/2kx^2


The Attempt at a Solution


So far i have Ee= 1/2kx^2

Ee= 1/2k(7.753)^2
I'm not sure if I'm doing this right, or what to do next.

Thanks
 
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How did you solve part A?
 
For part A, it had a diagram and the displacement was 20 cm and the force was 12.5N so i calculated 20*12.5/2= 125J
 
Benzene_ring said:
For part A, it had a diagram and the displacement was 20 cm and the force was 12.5N so i calculated 20*12.5/2= 125J
I assume that the 12.5 N force was the force required to stretch the spring 20 cm. So what's the spring constant?

Careful with units! (Convert distances to standard units: m, not cm.)
 
I divided 12.5 by 20 and got 0.625, but should i have converted before dividing?
 
Benzene_ring said:
I divided 12.5 by 20 and got 0.625, but should i have converted before dividing?
Yes. You want k in N/m, not N/cm.

(Note that you'll have to revise your answer for part A.)
 
Ok, i think i got the right answer.
Ee= 1/2 (625)(0.0078)^2
Ee= 1/2(625)(0.00006)
Ee= 0.01875J

Thank for all the help!
 
Benzene_ring said:
Ok, i think i got the right answer.
Ee= 1/2 (625)(0.0078)^2
Ee= 1/2(625)(0.00006)
Ee= 0.01875J
Careful! (But you're almost there.)

Check your values for k and for the amount of stretch.
 

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