Physics, asked by ashokkhopade1977, 29 days ago

Length of a year on a planet is the duration in which it completes one revolution around the sun. Assume path of the planet known as orbit to be circular with sun at the centre. The length T of a year of a planet orbiting around the sun in circular orbit depends on universal gravitational constant G, mass ms of the sun and radius r of the orbit. If one planet A have radius one fourth time to planet B then find ratio of time period of planet B to planet A.​

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Answered by mehakpreetsinghh1
0

Answer:

Length of a year on a planet is the duration in which it completes one revolution around the sun. Assume path of the planet known as orbit to be circular with sun at the centre. The length T of a year of a planet orbiting around the sun in circular orbit depends on universal gravitational constant G, mass m_(s) of the sun and radius r of the orbit. if TpropG^(a)m_(s)^(b)r^(c) find value of a+b+2c.

Answered by prashantahuja1
1

Answer:

here is the answer

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