5. In an experiment carried out on the tirst floor of the STEM building, a rubber sphere of with a radius of 9.00 centimeters encloses a spherical cavity with a diameter of 4.5 cm as shown. The synthetic rubber of which the sphere is made has mass density of 333. The sphere is set to roll without slipping on a smooth, flat, and rigid surface which is inclined at exactly 30° to the 9.0 CM 45 CM horizontal. Find the linear acceleration of the geometric center of the sphere at points A and B. You may neglect the thickness of rubber between the outer surface of the sphere and the inner surface of the cavity. 28.3 См 30°
5. In an experiment carried out on the tirst floor of the STEM building, a rubber sphere of with a radius of 9.00 centimeters encloses a spherical cavity with a diameter of 4.5 cm as shown. The synthetic rubber of which the sphere is made has mass density of 333. The sphere is set to roll without slipping on a smooth, flat, and rigid surface which is inclined at exactly 30° to the 9.0 CM 45 CM horizontal. Find the linear acceleration of the geometric center of the sphere at points A and B. You may neglect the thickness of rubber between the outer surface of the sphere and the inner surface of the cavity. 28.3 См 30°
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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Please show formula's used and do step for step, please don't cut out any algebra
Transcribed Image Text:5.
In an experiment carried out on the
first floor of the STEM building, a rubber
sphere of with a radius of 9.00 centimeters
encloses a spherical cavity with a diameter of
4.5 cm as shown. The synthetic rubber of
which the sphere is made has mass density of
333. The sphere is set to roll without
9.0 CM
slipping on a smooth, flat, and rigid surface
which is inclined at exactly 30° to the
horizontal. Find the linear acceleration of the
4.5 CM
A
geometric center of the sphere at points A and
B. You may neglect the thickness of rubber
between the outer surface of the sphere and
the inner surface of the cavity.
28.3 CM
B
30
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