Find the force function for a particle subject to a central

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Futurestar33
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Homework Statement



The problem is stated as Find the force function for a particle subject to a central field for each of the orbits as follows
a.) r=roCosθ
b.) r=roe^kθ[/B]

Homework Equations


We know the F(x)= dv/dx

here I am assuming F(x)=dv/dθ

The Attempt at a Solution



Do I just take the derivative of the orbit. I believe so but it must be in a different way.
Should I make r=√(x^2+y^2) or simply just take the derivative?
 
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Futurestar33 said:

Homework Statement



The problem is stated as Find the force function for a particle subject to a central field for each of the orbits as follows
a.) r=roCosθ
b.) r=roe^kθ[/B]Do I just take the derivative of the orbit. I believe so but it must be in a different way.
Should I make r=√(x^2+y^2) or simply just take the derivative?

Work in polar coordinates. What are the radial and azimuthal components of the acceleration? What do you know about the angular momentum in a central field?