The block A in the given figure is of mass `10sqrt(3)` kg The coefficient of friction between the block and the surface on which it rests is 0.5. Find maximum mass of block B possible such that the system will be in equilibrium is.

A block A of mass 3kg and another block B of mass 2 kg are connected by a light inextensible string as shown in figure. If the coefficient of friction between the surface of the table and A is 0.5. What maximum mass C is to be placed on A so that the system is to be in equilibrium? (g = 10 m//s^2)

Block A in figure weights 90 N. The coefficient of static friction between the block and the surface on which it rests is 0.3. The weight w is 15N, and the system is in equilibrium. Find the friction force exerted on block A.(b) Find the maximum weight w for which the system will remain in equilibrium.

A block A of mass 3kg and another block B of mass 2kg are connected by a light inextensible string as shown in figure. If the coefficient of friction between the surface of the table and A is 0.5 What maximum mass C is to be placed on A so that the system is to be in equlibrium .

a. Block A , as shown in figure weight 60.0 N The coefficient of static friction between the block and the surface on which it rest is 0.25 .The waight w is 12N The system is in equlibrium .Find the friction for excerted on block A b. Find the maximum weight w for which the system will remain in equlibrium

A block A of mass 3kg and another block B of mass 2 kg are connected by a light inextensible string as shown in figure. If the coefficient of friction between the surface of the table and A is 0.5. What maximum mass C is to be placed on A so that the system is to be in equlibrium?

Block A of mass M in the system shown in the figure slides down the incline at a constant speed. The coefficient of friction between block A and the surface is 1 3 3 . The mass of block B is-

a. Block A , as shown in figure weight 60.0 N The coefficient of static friction between the block and the surface on which it rest is 0.25 .The system is in equlibrium .Find the friction for excerted on block A b. Find the maximum weight w for which the system will remain in equlibrium