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Advanced Physics Homework Help
Periods and Motion of Orbits, CM and Relative Motions
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[QUOTE="jbeatphys, post: 5279746, member: 572105"] [h2]Homework Statement [/h2] (a) Using elementary Newtonian mechanics find the period of a mass m1 in a circular orbit of radius r around a fixed mass m2 (solved, but placing for context). (b) Using the separation into CM and relative motions, find the corresponding period for the case that m2 is not fixed and the masses circle each other a constant distance r apart. Discuss the limit of this results if m2 →∞. [h2]Homework Equations[/h2] R = Centre of mass = m1r1+m2r2/m1+m2... let m1+m2 be M. r = r1-r2 μ = m1m2/M = reduced mass U(r) = Gm1m2/r Lagrangian can be written as ½M d/dt(R)^2 + ½μ d/dt(r)^2 + U(r) L=Lcm + Lref, where Lcm is the Lagrangian of the centre of mass and Lref is the Lagrangian of reduced mass and r. [h2]The Attempt at a Solution[/h2] I solve part a and found a solution of τ=2πr^(3/2)/√GM2, which I am pretty confident with. I decided to solve the Lagrangian for the second part to see if I got a solution that would end up being similar to this solution (this is what I am expecting). But I found that v= GMt/r^2 + v0 was the equation for radial velocity, and thus the period comes out nothing like the period that I found using Newtonian mechanics. I am wondering if I am interpreting the question wrong. Or, perhaps, I don't even use the Lagrangian at all (I have chosen this method because I am fresh with the derivation for Lagrangian orbits, but I see that the radius is constant and I'm not sure if this means that I should just be doing vector analysis). Any help would be welcomed (it has helped just typing this out). [/QUOTE]
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Periods and Motion of Orbits, CM and Relative Motions
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