Explanation Given data: Time taken to the mars to rotate is 24.8 hrs. Formula used: Consider the expression of force. F = G M m m s r s 2 (1) Here, G is the gravitational constant, which has a standard value as 6.67 × 10 − 11 N m 2 kg 2 , M m is the mass of mars, m s is the mass of satellite, and r s is the radius of satellite. Consider the expression of force. F = m s v s 2 r s (2) Here, v s is the velocity of satellite. Velocity is given by, v s = 2 π r s T (3) Here, T is the time period. Solving equation (2) and equation (3) as follows. F = m s ( 2 π r s ) 2 r s ( T ) 2 (4) Solving equation (1) and equation (4), G M m m s r s 2 = m s ( 2 π r s ) 2 r s ( T ) 2 r s 3 = ( G M m T 2 4 π 2 ) r s = ( G M m T 2 4 π 2 ) 1 3 Substitute 6.67 × 10 − 11 N m 2 kg 2 for G , 24.8 hrs for T , and 6.42 × 10 23 kg for M m , r s = ( 6.67 × 10 − 11 N ⋅ m 2 kg 2 × 6

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Central Force

Central force is the force that acts along the center of mass of one body to the center of mass of another body. Its direction from or away from a point on a body to another is called the center of the force. Such forces include gravitational force betwe…

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Chapter 6, Problem 68GP

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The speed and altitude of a geostationary satellite orbiting Mars.

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Chapter 6, Problem 67GP

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