Need help finding spring constant

AI Thread Summary
To calculate the spring constant k for a ball dropped onto a spring, the mass of the ball (0.147 kg) and the maximum displacement (0.0445393 m) must be used. The gravitational potential energy (mgh) should be measured from the lowest point, requiring the total height to be the sum of the drop height (0.565 m) and the displacement. The conservation of energy principle applies, where the gravitational potential energy equals the elastic potential energy stored in the spring. The discussion highlights the importance of correctly identifying the height in the energy equations. Understanding these concepts is crucial for solving the problem accurately.
Mustrdhead
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Homework Statement



A 147g ball is dropped from a height of 56.5cm above a spring of neglibible mass. The ball compresses the spring to a maximum displacement of 4.45393cm. The acceleration is 9.8m/s^2. calculate the spring force constant k. Answer in units of N/m.

Homework Equations



Not sure


The Attempt at a Solution



I converted the mass from 147g to .147kg the height from 56.5cm to .565m and the displacement from 4.45393cm to .0445393m.

Now I am stuck and don't know what to do

I tried mgh=.5kx^2 but didnt work
 
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Mustrdhead said:
I tried mgh=.5kx^2 but didnt work
What did you use for h? (You need the change in height, from initial position to final position.)
 
what do you mean? i used the given height of .565m
 
Hint: What's the change in gravitational PE? Hint 2: Measure gravitational PE from the lowest point.
 
so use a zero height? or use .565+.0445393?
 
Mustrdhead said:
or use .565+.0445393?
That's the height you need to use in that formula. This is just a consequence of conservation of energy.
 
Thanks you are a genius
 
Mustrdhead said:
Thanks you are a genius
You are very perceptive. :smile:
 

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