How to graph potential energy for 2 atoms in diatomic molecule w/ 3 unknowns

AI Thread Summary
The potential energy of two atoms in a diatomic molecule is modeled by U(r) = a/r^12 - b/r^6, with the force on one atom given by F(r) = -(dU/dr) = (12a/r^13) - (6b/r^7). To graph U(r) and F(r), values of r must be chosen, but the constants a and b are unknown, complicating the plotting process. The discussion highlights that U(r) is a simplified form of the Lennard-Jones potential, which helps in understanding the expected graph shape. Clarification on how to proceed with plotting without specific values for a and b is sought, indicating a need for guidance on the graphical representation.
collin2012
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Homework Statement



The potential energy of two atoms in a diatomic molecule is approximated by

U(r)=a/r^12 - b/r^6,

where r is the spacing between the atoms and a and b are positive constants.

Find the force F(r) on one atom as a function of r.

Make two graphs one of U(r) versus r and one of F(r) versus r.

Homework Equations



F(r) = -(dU/dr)

The Attempt at a Solution



I know F(r) = -(dU/dr).

So, F(r) = (12a/r^13) - (6b/r^7)

And then I get stuck. I don't know how to make a plot of U(r) vs r and F(r) vs r when I don't know a and b.

I want to plug values of r=[0.1, 0.2, 0.3, ...] into the F(r) equation, but I have no idea what to do about a and b.

This question has been asked before on this forum and I have looked at the hints, but I am still completely lost.

Could someone please get me pointed in the right direction.

Thanks.
 
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So I figured out that U(r) = a/r^12 - b/r^6 is a simplified version of the Lennard-Jones potential and I know what the graph looks like now, but I still don't understand how you get it. I am so lost. Could someone please explain. Thanks.
 
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