In given diagram what is the minimum value of a horizontal external force F on block A so that block B will slide on ground is .

Four block are arranged on a smooth horizontal surface as shown in figure .The masses of the blocks are given (see the fig ) The coefficient of static friction between the top and the bottom blocks is mu_(s) What is the maximum value of the horizontal force F applied to one of the bottom blocks as shown that makes all four block with the same acceleration ?

Four blocks are arranged on a smooth horizontal surface as shown. The masses of the blocks are given (see the diagram). The coefficient of static friction between the top and the bottom blocks is mu_(s) . What is the maximum value of the horizontal force F, applied to one of the bottom blocks as show, thilt makes all four blocks move with the same acceleration ?

A bar of mass m is placed on a triangular block of mass M as shown in figure The friction coefficient between the two surface is mu and ground is smooth find the minimum and maximum horizontal force F required to be applied on block so that the bar will not slip on the inclined surface of block

Figure-2.202 shows a two block constrained motion system. Block A has a mass M and B has a mass m. If block A is pulled toward right horizontally with an external force F, find the acceleration of the block B relative to ground.

Find the minimum value of horizontal force (F) required on the block of mass m to keep it at rest on the wall. Given the coefficient of friction between the surfaces is mu .

Two blocks A and B are shown in figure. The minimum horizontal force F applied on Blocks B for which slipping begins at B and ground is

In the previous quiestion the minimum force F required so that block A will slip on block B is: