Classical Mechanics: Using Potential to Find Stable Equilibrium

Rhett Allain
5 min readOct 21, 2024
Photo: Rhett Allain. An interesting oscillation problem

In classical mechanics, it’s sometimes easier to look at a problem from a different perspective. I’m going to show you a situation in which we can figure out the motion of a system using its potential energy.

In the figure above, you can see our problem. We have a massless and frictionless wheel (you can order these at Physics R Us store online). There is a mass (m1) connected to the rim of the wheel and then there is another mass (m2) with a string wrapped around the wheel. I guess it’s a pulley, not a wheel. Whatever.

Now we have tw0 questions:

  • Are there any configurations in which this setup is in equilibrium?
  • Are there are any stable equilibrium positions?

Let’s get to it.

Potential Energy Function

Trust me on this one, the first thing we need is to get a function for the potential energy. Perhaps you can see that this is a one dimensional system — meaning that we could describe the orientation of the two masses with just one variable.

In this system, we just have the gravitational potential energy of the two masses (m1 and m2). In general, the gravitational potential energy for a single mass can be modeled as:

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Rhett Allain
Rhett Allain

Written by Rhett Allain

Physics faculty, science blogger of all things geek. Technical Consultant for CBS MacGyver and MythBusters. WIRED blogger.

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