Explanation Given: The mass of the earth, M e = 5.979 × 10 24 kg . The gravitational constant, G = 66.73 × 10 − 12 m 3 / kg ⋅ s 2 The radius of the earth, r e = 6.378 × 10 6 m . The satellite travels in a circular orbit, h = 800 km Write the expression the satellite travels in a circular orbit. h = 800 km = 800 km × 10 3 m 1 km = 800 × 10 3 m Write the expression for the satellite around the circular orbit of radius. r 0 = h + r e (I) Here, altitude is h and the radius of the radius is r 0 . Write the expression for the velocity of satellite. υ s = G M s r 0 (II) Here, satellite around the circular orbit of radius is r 0 , and the the velocity of satellite is υ s , the gravitational constant is G and mass of the sun is M s . Conclusion: Substitute 6.378 × 10 6 m for r e and 800 × 10 3 m for h in Equation (I)

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Chapter 13, Problem 115P

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The speed υS of a satellite launched parallel to the surface of the earth.

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Chapter 13, Problem 114P

Chapter 13, Problem 116P

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The speed υ S of a satellite launched parallel to the surface of the earth.

Solution Summary: The author determines the speed of a satellite launched parallel to the surface of the earth and the gravitational constant.

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The speed υS of a satellite launched parallel to the surface of the earth.

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Chapter 13 Solutions