Solving Problems with Attractive Inverse Cubed Force

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Homework Help Overview

The discussion revolves around a particle of mass m moving under the influence of an attractive inverse cubed force, described by the equation F = -K/r^3. Participants are tasked with finding the potential energy function V(r), analyzing the motion qualitatively using effective potential, and exploring various properties of the orbit.

Discussion Character

  • Exploratory, Conceptual clarification, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the relationship between force and potential energy, with some attempting to derive V(r) from the force equation. Questions arise regarding the interpretation of terms like "E" and "L," and the shape of the potential energy graph.

Discussion Status

The discussion is ongoing, with some participants providing potential forms of V(r) and others seeking clarification on definitions and concepts. There is a mix of interpretations regarding the terms involved, and no consensus has been reached yet.

Contextual Notes

Participants express uncertainty about the definitions of certain variables and the implications of the potential energy function. There is a focus on understanding the mathematical relationships and physical interpretations involved in the problem.

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I have a problem for this question, please help me

A particle of mass m is moving in an attractive inverse cubed force given by

F = -K/r^3, where K>0

a) Find V(r) and plot V(r) versus r.
b) Discuss the motion qualitatively by the method of effective potential.
C) Find E and L when the particle is moving in a circular orbit.
d) Find the time period of the orbit.
e) If the orbit is perturbed slightly, what will be the period of small oscillations?
 
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What, exactly, have you done so far?
 
I don't know a shape of V(r) versus r
 
<i>I don't know a shape of V(r) versus r</i>

V is potential energy? Then V(r) is the integral of the force with respect to displacement.

Edit: make that the negative integral of the force etc.
 
Last edited:
I find V(r) = -k/2r^2 + L^2/2mr^2
a part of r^2 of two terms are equal. Which total graph of V(r)
 
I could interpret V(r) as velocity or potential energy. Also I have no idea what "E"and "L" are. Please be sure you define all terms.
 

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