A science-fiction tale describes an artificial “planet" in the form of a band completely encircling a sun (Fig. 5–50). The inhabitants live on the inside surface (where it is always noon). Imagine that this sun is exactly like our own, that the distance to the band is the same as the Earth-Sun distance (to make the climate livable), and that the ring rotates quickly enough to produce an apparent gravity of g as on Earth. What will be the period of revolution, this planet's year, in Earth days? Sun FIGURE 5-50 Problem 88.
A science-fiction tale describes an artificial “planet" in the form of a band completely encircling a sun (Fig. 5–50). The inhabitants live on the inside surface (where it is always noon). Imagine that this sun is exactly like our own, that the distance to the band is the same as the Earth-Sun distance (to make the climate livable), and that the ring rotates quickly enough to produce an apparent gravity of g as on Earth. What will be the period of revolution, this planet's year, in Earth days? Sun FIGURE 5-50 Problem 88.
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter10: Motion In A Noninertial Reference Frame
Section: Chapter Questions
Problem 10.13P
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Transcribed Image Text:A science-fiction tale describes an artificial “planet" in the
form of a band completely encircling a sun (Fig. 5–50). The
inhabitants live on the inside surface (where it is always
noon). Imagine that this sun is exactly like our own, that
the distance to the band is the same as the Earth-Sun
distance (to make the climate livable), and that the ring
rotates quickly enough to produce an apparent gravity of g
as on Earth. What will be the period of revolution, this
planet's year, in Earth days?
Sun
FIGURE 5-50
Problem 88.
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