Part (d) The gravitational constant may also be calculated by analyzing the motion of a rocket. Suppose a rocket is launched vertically from the surface or Earth at an initial speed of vi. Its initial distance from the center of Earth is Ri, the radius of Earth. Its peak distance, where its speed is momentarily zero is, is Rf. For simplicity, ignore air resistance and Earth’s rotation. Enter an expression for the gravitational constant, in terms of vi, Ri, Rf, and ME. vi2 / ( 2 ME ( 1 / Ri - 1 / Rf ) ) ✔ Correct! Part (e) Suppose a rocket is launched as described in part (d) with an initial speed of vi = 491 m/s and attains a peak altitude of H = 13.3 km above the surface of Earth. Taking ME = 6.01×1024 kg and Ri = 6.43×106 m, what is the measured value of the gravitational constant, in units of N⋅m2/kg2?
Part (d) The gravitational constant may also be calculated by analyzing the motion of a rocket. Suppose a rocket is launched vertically from the surface or Earth at an initial speed of vi. Its initial distance from the center of Earth is Ri, the radius of Earth. Its peak distance, where its speed is momentarily zero is, is Rf. For simplicity, ignore air resistance and Earth’s rotation. Enter an expression for the gravitational constant, in terms of vi, Ri, Rf, and ME. vi2 / ( 2 ME ( 1 / Ri - 1 / Rf ) ) ✔ Correct! Part (e) Suppose a rocket is launched as described in part (d) with an initial speed of vi = 491 m/s and attains a peak altitude of H = 13.3 km above the surface of Earth. Taking ME = 6.01×1024 kg and Ri = 6.43×106 m, what is the measured value of the gravitational constant, in units of N⋅m2/kg2?
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter7: Gravity
Section: Chapter Questions
Problem 45PQ: Figure P7.45 shows a picture of American astronaut Clay Anderson experiencing weightlessness on...
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In this problem you will measure the gravitational constant in a series of “observational experiments,” making use of Newton’s law of gravitation and second law of motion as well as Kepler’s third law of planetary motion
Part (a) Newton measured the centripetal acceleration of the moon in its orbit around Earth by comparing the force Earth exerts on the moon with the force Earth exerts on an apple. He obtained a value of ac = 2.72×10-3 m/s2. If Newton had taken the mass of Earth to be ME = 6.01×1024 kg and the mean distance between the centers of Earth and the moon to be RME = 3.85×108 m, what value would he have obtained for the gravitational constant, in units of N⋅m2/kg2?
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Part (e) Suppose a rocket is launched as described in part (d) with an initial speed of vi = 491 m/s and attains a peak altitude of H = 13.3 km above the surface of Earth. Taking ME = 6.01×1024 kg and Ri = 6.43×106 m, what is the measured value of the gravitational constant, in units of N⋅m2/kg2? |
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