Calculating Spring Constant and Mechanical Energy

AI Thread Summary
The spring constant is calculated using the formula F=kx, resulting in a value of 122.5 N/m when a 0.5 kg mass stretches the spring by 4 cm. The mechanical energy of the mass, when displaced 2 cm from its equilibrium position, is determined to be 0.025 J using the work formula W= 0.5kx². The speed of the mass as it passes through the equilibrium position is calculated to be 0.32 m/s using the kinetic energy formula KE= 0.5mv². Clarification is sought regarding the correct application of displacement values in the formulas. The discussion emphasizes the importance of understanding when to use the initial stretch versus the displacement from equilibrium.
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Homework Statement


When a .5kg mass is suspended from a spring, the spring stretches 4cm. The mass is then displaced 2cm from its equilibrium position and released.
(a) What is the spring constant? (b) What is the mechanical energy of the mass? (c) What is the speed of the mass as it passes through its equilibrium position going down and going up?


Homework Equations


F=kx (k is spring constant)
W= .5(k)x2
KE= .5mv2

The Attempt at a Solution


For part A I used F=kx:
mg=kx
(.5kg)(9.8m/s2) = k (.04m)
k= 122.5N/m

For part B I used W= .5kx2:
W= .5(122.5N/m)(.02m)2
W= .025J

For part C I used KE = .5mv2
.025J = .5(.5kg)v2
v= .32m/s

I just need to make sure that I'm on the right track with this problem. I can get confused as to when to use .04m and .02 and generally with using formulas.
 
Last edited:
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How much gravitational energy is there when the mass is displaced 2cm = 0.002m from its equilibrium position? Hint: The spring originally stretched 0.0004m when the mass was suspended.
 

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