Explanation Given: The maximum and minimum distance from center of the planet is shown in Figure (1). The mass of the earth M e = 5.976 × 10 24 kg . The gravitational constant is G = 66.73 × 10 − 12 m 3 / kg ⋅ s 2 The radius of the earth r e = 6.378 × 10 6 m . From Figure (1) write the value for minimum distance r p . r p = 8 Mm 10 6 m 1 Mm = 8 ( 10 6 ) m From Figure (1) write the value for maximum distance r a . r a = 19 Mm 10 6 m 1 Mm = 19 ( 10 6 ) m Write the expression for the minimum distance from the centre of Earth. r a = r 0 2 G M e ( r 0 υ 0 ) − 1 (I) Here, minimum distance from the center of earth is r 0 and the initial speed of the rocket υ 0 and the gravitational constant is G and mass of the earth is M e . Write the expression for the altitude . h = υ A r P (II) Here, the speed of the rocket at A is υ A and r p is minimum distance from the center of earth or perigee. From Figure (1) write the expression for perigee r p . r P = 8 ( 10 6 ) m + r e (III) Here, radius of the earth is r e . From Figure (1) write the expression for apogee r a . r a = 19 ( 10 6 ) m + r e (IV) Here, radius of the earth is r e . Write the expression for period of elliptical orbit. T = π h ( r p + r a ) r p r a (V) Here, period is T , r p is minimum distance from the center of earth or perigee and r a is the maximum distance from the center of earth or apogee. Write the expression for time required to travel from A to A ' . t = T 2 (VI) Here, period is T and time is t . Conclusion: Substitute 6.378 × 10 6 m for r e in Equation (III). r P = 8 ( 10 6 ) m + r e = [ 8 ( 10 6 ) m + 6.378 × 10 6 m ] = [ 14.378 ( 10 6 ) m ] Substitute 6.378 × 10 6 m for r e h in Equation (IV). r a = 19 ( 10 6 ) m + r e = [ 19 ( 10 6 ) m + 6.378 × 10 6 m ] = [ 25.378 ( 10 6 ) m ] Since, r 0 = r p and υ 0 = υ p . Substitute r p for r 0 and υ p for υ 0 in Equation (I). r a = r 0 2 G M e ( r 0 υ 0 ) − 1 r a = r p 2 G M e ( r p υ p ) − 1 2 G M e ( r p υ p ) = r p r a + 1 2 G M e ( r p υ p ) = r p + r a r a υ p = 2 G M e r a r p ( r p + r a ) (VII)

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Chapter 13, Problem 124P

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The time t required for the rocket to travel from the inner orbit at A to the outer orbit at A'

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Chapter 13, Problem 123P

Chapter 13, Problem 125P

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The time t required for the rocket to travel from the inner orbit at A to the outer orbit at A '

Solution Summary: The author explains how to determine the maximum and minimum distance from the Earth's center.

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The time t required for the rocket to travel from the inner orbit at A to the outer orbit at A'

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