Mass of man is 'M' There is no friction between man and block But `'mu'` is coefficient of friction between block and floor.

Find the maximum force that the man can exert on the rope so that the block does not slip on floor.

The coefficient of friction between the board and the floor shown in figure is mu . Find the maximum force that the man can exert on the rope so that the board does not slip on the floor.

The friction coefficient between the board and the floor shown in figure is mu Find the maximum force that the man can exert on the rope so that the board does not slip on the floor

The friction coeficient bettween the board and the floor shownin filgure is mu . Find the maximum force that the man can exert on the rope so tht the board does not slipon the floor.

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

In Fig. A is a large block which executes shm by sliding across a frictionless surface with a frequency n. The block B is at rest on the surface of the block mu_s The coefficient of static friction between the two is H. Find the maximum amplitude of oscillation of the system so that the block B does not slip.

A block of mass m is kept on horizontal turn table at x distance from the centre. If coefficient of friction between block and surface of turn table is mu , then maximum angular speed of the table so that block does not slip

A cart of mass M has a block of mass m in contact with it as shown in the figure-2.133. The coefficient of friction between the block and the cart is mu . What is the minimum acceleration of the cart so that the block m does not fall ?

A block of mass m kept on rough horizontal turn table at a distance x from the centre. If the coefficient of friction between the table and block is mu then maximum speed of point P on turn table so that the block does not slip is

A block of mass m is moving on a rough horizontal surface. mu is the coefficient of kinetic friction between the block and the surface. What is the net force exerted by the surface on the block?

A block of mass m=2kg is resting on a rough inclined plane of inclination of 30^(@) as shown in figure. The coefficient of friction between the block and the plane is mu=0.5 . What minimum force F should be applied perpendicular to the plane on the block, so that blocks does not slip on the plane? (g=10m//s^(2))