Two small blcok m=2kg each kept on wedge of mass 12kg. There is no friction between blocks and wedge coefficient of friction between wedge and ground in μ=0.3. Calculate frictional force by ground on wedge.

Calculate angle of friction between wedge and block system is at rest M coefficient of friction between wedge and block.

a Block of mass m is placed on a wedge of mass M there is no friction between the block and the wedge .The minmum coefficient of friction between the wedge and the gound so that wedge does not move is,

A cube of mass m is placed on top of a wedge of mass 2m, as shown in figure. There is no friction between the cube and the wedge. The minimum co - efficient of friction between the wedge and the horizontal surface, so that the wedge does not move is

In the show arrangement mass of A=1 kg, mass of B= 2kg. Coefficient of friction between A and B =0.2 There is no friction between B and ground. The frictional force exerted by A on B equals.

A block A with mass 100kg is resting on another block B of mass 200kg. As shown in figure a horizontal rope tied to a wall hold it. The coefficient of friction between A and B is 0.2 while coefficient of friction between B and the ground is 0.3 . the minimum required force F to start moving B will be.

A block A with mass 100kg is resting on another block B of mass 200kg. As shown in figure a horizontal rope tied to a wall hold it. The coefficient of friction between A and B is 0.2 while coefficient of friction between B and the ground is 0.3 . the minimum required force F to start moving B will be.

A block A with mass 100kg is resting on another block B of mass 200kg. As shown in figure a horizontal rope tied to a wall hold it. The coefficient of friction between A and B is 0.2 while coefficient of friction between B and the ground is 0.3 . the minimum required force F to start moving B will be.

An arrangement is shown in the figure . The mass of the wedge is 4 kg and that of the block is 1 kg . There is no friction between wedge and ground , but coefficient of friction between vertical surface of the wedge and to the block is mu= 0.1. . (Assume ideal pulley and string) (g = 10 m//s^(2)) and assuming the pulley to be massless and friction. calucalate the maximum possible values of force upto while bock remain stationary relative to wedge.

A block of mass m is at rest on wedge as shown in figure. Let N be the normal reaction between two and f the force of friction, then choose the wrong option.

A block on table shown in figure is just on the wedge of slipping. Find the coefficient of static friction between the block and table top.