Question 4 a) State the assumptions made in the definition of the rigid body and explain different possible types of motion of a rigid body. b) The 10-kg block A rests on the 50-kg plate B in the position shown in Figure Q4(b). Neglecting the mass of the rope and pulley, and using the coefficients of kinetic friction indicated, determine the tension in the cable, acceleration of block A, plate B, and the time needed for block A to slide 0.5 m on the plate when the system is released from rest.

Question 4 a) State the assumptions made in the definition of the rigid body and explain different possible types of motion of a rigid body. b) The 10-kg block A rests on the 50-kg plate B in the position shown in Figure Q4(b). Neglecting the mass of the rope and pulley, and using the coefficients of kinetic friction indicated, determine the tension in the cable, acceleration of block A, plate B, and the time needed for block A to slide 0.5 m on the plate when the system is released from rest.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Figure 2 В A Block A is hanging from a massless string which runs over a massless and frictionless pulley and connects to Block B. Block B slides over an inclined plane with ordinary kinetic friction. The plane under block B is inclined at an angle theta = 0 away from vertical. The other side of Block B is connected to another massless string which runs over another massless and frictionless pulley to connect to Cart C. Cart C rolls without friction over a plane which is inclined at an angle of phi = y away from vertical. C