5. FBD's, friction, Centripetal Force (Show your Work) You are captured by the grinch and taken to his space station (R-200.1m). Unfortunately for you he has released a hungry polar bear into the rim of the station. You manage to hack the controls for a rocket engine that can cause acceleration along the axis as shown in the figure below (but you cannot change The static coefficient of friction between the rim of the station and the bear is 0.543 The Station accelerates "upward" and the Bear gets dragged along. You can escape if you hang on to a handily placed ladder while the Polar Bear slides down the wall as the station accelerates (see figure below). 5.1 Draw a FBD of the Polar Bear. 5.2 What minimum linear acceleration will cause the Bear to slide down the rall of the station? Both (Left and Right) spins yield the same equations: The only difference i a negative sign due to the coordinate system. Station Accels Upward the rotation which is permanently stuck at 0=0.200 Rad/sec).
5. FBD's, friction, Centripetal Force (Show your Work) You are captured by the grinch and taken to his space station (R-200.1m). Unfortunately for you he has released a hungry polar bear into the rim of the station. You manage to hack the controls for a rocket engine that can cause acceleration along the axis as shown in the figure below (but you cannot change The static coefficient of friction between the rim of the station and the bear is 0.543 The Station accelerates "upward" and the Bear gets dragged along. You can escape if you hang on to a handily placed ladder while the Polar Bear slides down the wall as the station accelerates (see figure below). 5.1 Draw a FBD of the Polar Bear. 5.2 What minimum linear acceleration will cause the Bear to slide down the rall of the station? Both (Left and Right) spins yield the same equations: The only difference i a negative sign due to the coordinate system. Station Accels Upward the rotation which is permanently stuck at 0=0.200 Rad/sec).
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter6: Applications Of Newton's Laws
Section: Chapter Questions
Problem 15CQ: Suppose a mass is moving in a circular path on a frictionless table as shown below. In Earth’s frame...
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