Kibble problem (linear motion chap. 2)

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Homework Statement



7. A particle of mass m moves (in the region x > 0) under a force F =
−kx+c/x, where k and c are positive constants. Find the corresponding
potential energy function. Determine the position of equilibrium, and
the frequency of small oscillations about it.



Homework Equations



dx/dt = [(2/m)(E - V(x)]^1/2

The Attempt at a Solution


dx/[(2/m)(E+ Clnx - (1/2)kx^2]^1/2 = dt
V = -Clnx + (1/2)kx^2]^1/2
i think at equilibrum point V(x) must be zero but then how can i continue? This is en exam question and i must solve it completely correct. Thank you for your answers. (my firt language is not english. Sorry for mistakes.)
 
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Thanks, you are right. Total force, i think is zero at equilibrium point. So;
-ka + [tex]\frac{c}{a}[/tex] = 0 (a = equilibrium point.) k = c/a2
Is it true?
 
levilevi said:
Thanks, you are right. Total force, i think is zero at equilibrium point. So;
-ka + [tex]\frac{c}{a}[/tex] = 0 (a = equilibrium point.) k = c/a2
Is it true?
It is true. If this is an exam question, you have to finish it by yourself. I will not tell you how to solve it, but I can tell you if something is correct or not and the rest is up to you.
 
The exam was three days ago. Nobody could solve this question and a similar one (in which F = -kx +a/x^3) The teacher gave us as a homework. If i will solve maybe my exam mark will increase but i am not sure this. Maybe not. If you don not want to help it is up to you. I will study on it again and again...
 
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I solved at last. a=(c/k)^1/2 and w=(2k/m)^1/2 , w=(V''(a) /m)^1/2. Thanks.