Explanation Write the expression to calculate the initial circular orbit speed of the spacecraft. v c = R g a c (I) Here, radius of the earth is R , acceleration due to gravity is g , the distance from center of earth to P is a c . When a = ∞ : Write the expression to calculate the speed of the space craft at P in elliptical orbit. v P = 2 g R 2 r P (II) Here, the radial distance from center of the earth to P is r P . Write the expression to calculate the velocity increment ( Δ v ) of the spacecraft at P . Δ v = v P − v c (II) Write the expression to calculate the speed when r is 2 r P . v = 2 g R 2 r (II) Conclusion: Substitute ( 6371 × 10 3 ) m for R , 9.825 m/s 2 for g and ( 6371 + 240 ) × 10 3 m for a c in Equation (I). v c = ( 6371 × 10 3 ) m 9.825 m/s 2 ( 6371 + 240 ) × 10 3 m = 7767 m / s The minimum radial distance ( r P ) from center of earth to P is ( 6371 + 350 ) × 10 3 m . Substitute ( 6371 × 10 3 ) m for R , 9.825 m/s 2 for g and ( 6371 + 240 ) × 10 3 m for r P in Equation (I). v P = 2 × 9.825 m/s 2 × [ ( 6371 × 10 3 ) m ] 2 ( 6371 + 240 ) × 10 3 m = 10984 m/s Substitute 10984 m/s for v P and 7767 m / s for v c in Equation (I)

8th Edition

ISBN: 9781118885840

Author: James L. Meriam, L. G. Kraige, J. N. Bolton

Publisher: WILEY

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Chapter 3.12, Problem 280P

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The speed and θ when r is 2rP.

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Chapter 3.12, Problem 279P

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The speed and θ when r is 2 r P .

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