What is the force constant and work done in stretching a Hooke's-law spring?

AI Thread Summary
To find the force constant of a Hooke's-law spring, the force varies from 0 N to 70.7 N as it is stretched 6.52 cm. The relevant equations include Hooke's law (F = -kx) and the work done (W = Fd). The calculation for work done should not be attempted until the force constant (k) is determined. It's crucial to convert the distance into meters for accurate results in joules. Understanding these principles is essential for solving problems related to spring mechanics effectively.
jrl3253
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Homework Statement



The force required to stretch a Hooke's-law spring varies from 0 N to 70.7 N as we stretch the spring by moving one end 6.52 cm from its unstresses position. Find the force constant of the spring. answer in units of N/m.
Find the work done in the stretching the spring. Answer in units of J.
F=0-70.7 N
d= 6.52 cm

Homework Equations



W=Fd
W=-Kx

The Attempt at a Solution


W=70.7*6.52=460.964
 
Last edited:
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what is hooke's law? you haven't written that down and it would be the most relevant equation to find the force constant of the spring!

I would add that once you have found the force constant from hookes law, then you can use it to work out the work done. Due to conservation of energy, work done stretching a spring is equal to elastic (potential) energy stored in the spring.

do you know the equation for the elastic energy in a spring? that's the other relevant equation!
 
hooke's law is in the post...W=-kx
 
Last edited:
jrl3253 said:
hooke's law is in the post...F=-kx
2. Homework Equations

W=Fd
W-Kx
I don't see it there!

In your attempt at a solution, you skipped straight to finding W (Work). You cannot calculate this without first knowing k (force constant).

Don't forget that distances should be in meters for calculations if you want to get the right answer in joules.
 
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