Block B with a mass of 13kg A with a mass of 27kg stands on the corner as shown in the figure. The kinetic coefficient of friction between the block and the angle is 0.25 and the static coefficient of friction is 0.30, and there is no friction between the angle and the horizontal surface and the pulleys. (i) calculate the maximum mass of Block C, which will ensure that Block B does not shift over the corner a. (ii) if the mass of Block C is x %greater than the mass calculated in option (i), calculate the acceleration of Block B and C of the angle A in m/s2
Block B with a mass of 13kg A with a mass of 27kg stands on the corner as shown in the figure. The kinetic coefficient of friction between the block and the angle is 0.25 and the static coefficient of friction is 0.30, and there is no friction between the angle and the horizontal surface and the pulleys. (i) calculate the maximum mass of Block C, which will ensure that Block B does not shift over the corner a. (ii) if the mass of Block C is x %greater than the mass calculated in option (i), calculate the acceleration of Block B and C of the angle A in m/s2
Classical Dynamics of Particles and Systems
5th Edition
ISBN:9780534408961
Author:Stephen T. Thornton, Jerry B. Marion
Publisher:Stephen T. Thornton, Jerry B. Marion
Chapter10: Motion In A Noninertial Reference Frame
Section: Chapter Questions
Problem 10.3P
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Block B with a mass of 13kg A with a mass of 27kg stands on the corner as shown in the figure. The kinetic coefficient of friction between the block and the angle is 0.25 and the static coefficient of friction is 0.30, and there is no friction between the angle and the horizontal surface and the pulleys.
(i) calculate the maximum mass of Block C, which will ensure that Block B does not shift over the corner a.
(ii) if the mass of Block C is x %greater than the mass calculated in option (i), calculate the acceleration of Block B and C of the angle A in m/s2
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