Potential Energy Curve for Proving Expressions for c and w

AI Thread Summary
The discussion focuses on proving the expressions for c and w in the context of potential energy curves. The key equations involved include the potential energy function V(r) and the force equation F=ma. The user attempts to derive the expressions by differentiating V(r) and applying Newton's second law but encounters difficulty in simplifying the resulting equations. A suggestion is made to consider a change of variables, specifically r' = r - re, to facilitate the proof. The conversation emphasizes the importance of correctly manipulating the equations to achieve the desired results.
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Homework Statement


Prove the expressions for c and w

c=re

w=(k/m)^1/2


Homework Equations



V(r) =k/2*(r-re)^2

F=ma=m*d^2r/dt^2

r=A*cos(wt)+B*sin(wt)+c

The Attempt at a Solution



dV(r)/dr =-k(r-re)

m*d^2r/dt^2=-k(r-re)

d^2r/dt^2=-k/m*r+k/m*re

r=A*cos(wt)+B*sin(wt)+c

d^2r/dt^2= -A*w^2*cos(wt)-B*w^2*sin(wt)

-A*w^2*cos(wt)-B*w^2*sin(wt)=-k/m*(A*cos(wt)+B*sin(wt)+c)+k/m*re

I am stuck at this point I do not see how to eliminate each side. Any help would be appreciated.
 
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Could you please tell us the problem statement as it was originally given?

You might want to consider the change of variables r' = r-re.
 

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