A space station out beyond the solar system is rotating with constant angular velocity. A spaceship heading into the station along a diameter of the station, uses its rockets to brake, and then docks inside the station at its center. When the spaceship docks, the angular momentum of the system consisting of the station and ship (A) is less than the original angular momentum of the station. (B) is the same as the original angular momentum of the station. C is greater than the original angular momentum of the station. D is less than the original angular momentum of the station, but the angular velocity increases. E is greater than the original angular momentum of the station, but the angular velocity decreases.

College Physics
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Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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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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A space station out beyond the solar system is rotating with constant angular velocity. A spaceship heading into the station along a
diameter of the station, uses its rockets to brake, and then docks inside the station at its center. When the spaceship docks, the
angular momentum of the system consisting of the station and ship
(A) is less than the original angular momentum of the station.
(B) is the same as the original angular momentum of the station.
C is greater than the original angular momentum of the station.
D is less than the original angular momentum of the station, but the angular velocity increases.
E is greater than the original angular momentum of the station, but the angular velocity decreases.
Transcribed Image Text:A space station out beyond the solar system is rotating with constant angular velocity. A spaceship heading into the station along a diameter of the station, uses its rockets to brake, and then docks inside the station at its center. When the spaceship docks, the angular momentum of the system consisting of the station and ship (A) is less than the original angular momentum of the station. (B) is the same as the original angular momentum of the station. C is greater than the original angular momentum of the station. D is less than the original angular momentum of the station, but the angular velocity increases. E is greater than the original angular momentum of the station, but the angular velocity decreases.
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