19th Edition

ISBN: 9780136477679

Author: Knight

Publisher: PEARSON C

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Textbook Question

Chapter 13, Problem 71EAP

Let’s look in more detail at how a satellite is moved from one circular orbit to another. FIGURE CPI3.71 shows two orbits, of radii r₁ and r₂ and an elliptical orbit that connects them. Points 1 and 2 are at the ends of the semimajor axis of the ellipse.

Chapter 13, Problem 71EAP, Let’s look in more detail at how a satellite is moved from one circular orbit to another. FIGURE

FIGURE CPI3.71

a. A satellite moving along the elliptical orbit has to satisfy two conservation laws. Use these two laws to prove that the velocities at point 1 and 2 are

v ' 1 = 2 G M ( r 2 / r 1 ) r 1 + r 2 and v ' 2 = 2 G M ( r 1 / r 2 ) r 1 + r 2

The prime indicates that these are the velocities on the elliptical orbit. Both reduce to Equation 13.22 if r₁ =r² = r.

b. Consider a 1000 kg communications satellite that needs to be boosted from an orbit 300 km above the earth to a geosynchronous orbit 35,900 km above the earth. Find the velocity v₁on the inner circular orbit and the velocity v ' 1 at the low point on the elliptical orbit that spans the two circular orbits.

c. How much work must the rocket motor do to transfer the satellite from the circular orbit to the elliptical orbit?

d. Now find the velocity v ' 2 at the high point of the elliptical orbit and the velocity v₂ of the outer circular orbit.

e. How much work must the rocket motor do to transfer the satellite from the elliptical orbit to the outer circular orbit?

f. Compute the total work done and compare your answer to the result of Example 13.6.

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Chapter 13, Problem 70EAP

Chapter 13, Problem 72EAP

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Chapter 13 Solutions

PHYSICS F/SCI.+ENGR. >CUSTOM PACKAGE<

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