Computing Central Force Potential: Bound from |r| to Infinity

mystraid · May 2, 2010

Hello,

I am trying to compute the potential for a central force of the form: F(r) = f(r)r
where r=|r|

Using the conservative force information, equation1 comes for potential V(r):

equation1: V(r) = [tex]\int [/tex] (-F(r))= [tex]\int [/tex] (-f(r) r)

In http://en.wikipedia.org/wiki/Central_force" it is stated that this integral is bounded from |r| to infinity. However I could not understand the reason.

Could someone help me?
Thanks..

tiny-tim · May 2, 2010

Welcome to PF!

Hello mystraid! Welcome to PF!

It has to be bounded from |r| to somewhere …

we can choose that somewhere to be anywhere, but it makes it simplest if we choose it to be ∞ (so the potential is always 0 at ∞).

mystraid · May 3, 2010

Thank you for the reply tiny-tim.

And, I have another question. What if the function is dependent on the position vector r but not the magnitude of it?

So:

F(r) = f(r)r

Then is there any potential for such a force, and if so, under what conditions it exists?

Thanks

tiny-tim · May 3, 2010

I'm sorry, I don't understand.

mystraid · May 3, 2010

Me, too

Computing Central Force Potential: Bound from |r| to Infinity

1. What is a central force potential?

2. How is the central force potential calculated?

3. What does "Bound from |r| to Infinity" mean in the context of computing central force potential?

4. What is the significance of computing the central force potential?

5. Are there any limitations to the central force potential model?

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