Suppose you are standing within the rim of a circular space station, in outer space. The rim revolves around the center of the space station at a speed of 300 (m/s). If the radius of the station is 3,000 (m). 1.) Draw and label a diagram for this case. 2.) What is the rotational speed of the space station? 3.) From the equation a = V^2/r (a = simulated gravity/acceleration), calculate the acceleration (a) at the rim. 4.) From the equation Fc = [m(V^2)]/r, calculate the centripetal force Fc assuming the mass of the station is 5,000(kg).
Suppose you are standing within the rim of a circular space station, in outer space. The rim revolves around the center of the space station at a speed of 300 (m/s). If the radius of the station is 3,000 (m). 1.) Draw and label a diagram for this case. 2.) What is the rotational speed of the space station? 3.) From the equation a = V^2/r (a = simulated gravity/acceleration), calculate the acceleration (a) at the rim. 4.) From the equation Fc = [m(V^2)]/r, calculate the centripetal force Fc assuming the mass of the station is 5,000(kg).
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 5PQ
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Suppose you are standing within the rim of a circular space station, in outer space. The rim revolves around the center of the space station at a speed of 300 (m/s). If the radius of the station is 3,000 (m).
1.) Draw and label a diagram for this case.
2.) What is the rotational speed of the space station?
3.) From the equation a = V^2/r (a = simulated gravity/acceleration), calculate the acceleration (a) at the rim.
4.) From the equation Fc = [m(V^2)]/r, calculate the centripetal force Fc assuming the mass of the station is 5,000(kg).
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