How Do You Calculate Spring Extension in a Series Configuration?

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    Hooke's law Law
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To calculate the extension of springs in a series configuration with equal masses, the equilibrium equations must be set up for each mass. The force balance for the second mass, m2, is expressed as 0 = ky2 - ky3 - mg, where ky2 and ky3 represent the forces from the springs above and below. The discussion confirms that the approach is correct, emphasizing the need to express the spring forces in terms of known variables like mass (m), spring constant (k), and gravitational acceleration (g). Clarification on the direction of forces helps simplify the problem-solving process. Understanding the forces acting on each mass is crucial for accurately determining the extensions of the springs.
bmxicle
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Homework Statement


4 springs with a mass on each end are connected in series as below:

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m1
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m2
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m3
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m4

All the masses are mass m, the length of each spring is 1, and the spring constant is k, find the extension of each spring.


Homework Equations



f = ky

The Attempt at a Solution



So basically if i label each spring extension as y_1, \ y_2, \ y_3, \ y_4 then the only forces are the spring pulling from above, the spring pulling from below and the force of gravity on each mass. So for example for the second mass m2 from the top the equilibrium equation would be:

0 = ky_2 - ky_3 -mg

If this is right I can solve the rest of the problem easily, but I'm just getting thrown off by my use of Newton's second law here.
 
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0=ky2−ky3−mg

This seems to be an accurate statement.

Now how can you rewrite the ky2 and ky3s into the variables you do know, which are m, k and g?
 
bmxicle said:
... the only forces are the spring pulling from above, the spring pulling from below and the force of gravity on each mass. So for example for the second mass m2 from the top the equilibrium equation would be:

0 = ky_2 - ky_3 -mg
Yes, you are on the right track.
 
Thanks, I can solve the rest of it pretty easily now. I think I was just over thinking which springs were pulling where.
 
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