5.92 ... Block B, with mass Figure P5.92 5.00 kg, rests on block A, with mass 8.00 kg, which in turn is on a horizontal tabletop (Fig. P5.92). There is no fric- tion between block A and the tabletop, but the coefficient of static friction between blocks A and B is 0.750. A light string attached to block A passes over a frictionless, massless pulley, and block C is suspended from the other end of the string. What is the largest mass that block C can have so that blocks A and B still slide together when the system is released from rest?

5.39 - CP As shown in Fig. E5.34, block A (mass 2.25 kg) rests on a tabletop. It is connected by a horizontal cord passing over a light, frictionless pulley to a hanging block B (mass 1.30 kg). The coefficient of kinetic friction between block A and the tabletop is 0.450. The blocks are released then from rest. Draw one or more free-body diagrams to find (a) the speed of each block after they move 3.00 cm and (b) the tension in the cord.

Block B with mass mb rests on top of block A with mass ma. Both blocks are on a horizontal table top. There is no friction between block A and the table but there is a coefficient of static friction µs between block A and B. A string is attached to block A and runs over a pulley connected to block C with mass mc that is suspended off the edge of the table. A) draw the free body diagram for each object? B) What is the largest mc can be so that blocks A and B slide together?

Two blocks of mass 3.50 kg and 8.00 kg arc connected by a massless string that passes over a frictionless pulley (FIg. P549). The inclines are frictionless. Find (a) the magnitude of the acceleration of each block and (b) the tension in the string.