quo 3. Consider a ring space station, rotating counterclockwise at 0. 6282 rad/s.0.6282 rad/sC.nugeh metFig. 1 - a spinning space station.a.What is that angular velocity, O. 6282 rad/s, in revolutions per minute?b. If the centripetal acceleration at the rim of the station is 9.81 m/s², what is theradius of the structure?A chunk of stuff on the rim of the station breaks off, and flies away at a constantvelocity in a straight line. Its velocity will be the linear, tangential velocity v it hadthe instant it broke away from the rim of the station, at the radius found in (b).How fast is it traveling?

Answered: Image /qna-images/answer/3e99d6e1-2d89-4b9b-bf9a-5cb8c80195d1.jpg

3. Consider a ring space station, rotating counterclockwise at 0. 6282 rad/s. C. 0.6282 rad/s thor Fig. 1-a spinning space station. a. What is that angular velocity, 0. 6282 rad/s, in revolutions per minute? b. If the centripetal acceleration at the rim of the station is 9.81m/s2, what is the radius of the structure? A chunk of stuff on the rim of the station breaks off, and flies away at a constant velocity in a straight line. Its velocity will be the linear, tangential velocity v it had the instant it broke away from the rim of the station, at the radius found in (b). How fast is it traveling?

3. Consider a ring space station, rotating counterclockwise at 0. 6282 rad/s. C. 0.6282 rad/s thor Fig. 1-a spinning space station. a. What is that angular velocity, 0. 6282 rad/s, in revolutions per minute? b. If the centripetal acceleration at the rim of the station is 9.81m/s2, what is the radius of the structure? A chunk of stuff on the rim of the station breaks off, and flies away at a constant velocity in a straight line. Its velocity will be the linear, tangential velocity v it had the instant it broke away from the rim of the station, at the radius found in (b). How fast is it traveling?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

quo 3. Consider a ring space station, rotating counterclockwise at 0. 6282 rad/s.
0.6282 rad/s
C.
nugeh met
Fig. 1 - a spinning space station.
a.
What is that angular velocity, O. 6282 rad/s, in revolutions per minute?
b. If the centripetal acceleration at the rim of the station is 9.81 m/s², what is the
radius of the structure?
A chunk of stuff on the rim of the station breaks off, and flies away at a constant
velocity in a straight line. Its velocity will be the linear, tangential velocity v it had
the instant it broke away from the rim of the station, at the radius found in (b).
How fast is it traveling?

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