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Problem 5. (a) For circular and parabolic orbits in an attractive 1/r potential having the same angular momentum, show that perihelion distance of the
Problem 5. (a) For circular and parabolic orbits in an attractive 1/r potential having the same angular momentum, show that perihelion distance of the parabola is one-half the radius of the circle. (b) Prove that in the same central force as above, the speed of a particle at any point in a parabolic orbit is 2 times the speed in a circular orbit passing through the same point.
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A problem in classical mechanics a Perihelion distance of parabolic orbit Lets consider a circular orbit with radius r and angular momentum L We can w...
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University Physics with Modern Physics
Authors: Hugh D. Young, Roger A. Freedman
14th edition
133969290, 321973615, 9780321973610, 978-0133977981
