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3.3 [1] Show that the energy of a circular orbit in the isochrone potential (2.47) is E = -GM/(2a), where a = √b²+ r². L

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3.3 [1] Show that the energy of a circular orbit in the isochrone potential (2.47) is E = -GM/(2a), where a = √b²+ r². L

Posted: Wed May 04, 2022 1:49 pm
by answerhappygod
3 3 1 Show That The Energy Of A Circular Orbit In The Isochrone Potential 2 47 Is E Gm 2a Where A B R L 1
3 3 1 Show That The Energy Of A Circular Orbit In The Isochrone Potential 2 47 Is E Gm 2a Where A B R L 1 (18.41 KiB) Viewed 54 times
3.3 [1] Show that the energy of a circular orbit in the isochrone potential (2.47) is E = -GM/(2a), where a = √b²+ r². Let the angular momentum of this orbit be Le(E). Show that Lc = √GMb (x-¹/2 - ¹/²), 2Eb where x = (3.327) GM
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