The friction coefficient between plank and flooe is `mu`. The man applies, the maximum possible foce on the string and the system remains at rest. Then

The friction coefficient between plank and floor is mu . The man applies, the maximum possible force on the string and the system remains at rest. Then

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 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 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

Figure-2.84 shows a man ofmass M standing on a board of mass m.What minimum force is required to exert on string to slide the board. The friction coefficient between board and floor is mu and there is sufficient friction between man and board so that man does not slip. [(mu(M+m)g)/(1+mu)]

In the system shown in Fig the friction coefficient between ground and bigger block is mu There is no friction between both the block .The string connecting both the block is light all three pulley are light and frictionless Then the minimum limiting value of mu so that the system remain in equilibrium , is

In the system shown in Fig the friction coefficient between ground and bigger block is mu There is no friction between both the block .The string connecting both the block is light all three pulley are light and frictionless Then the minimum limiting value of mu so that the system remain in equilibrium , is

In the system shown in figure the friction coefficient between ground and bigger block is mu . There is no frinction between both the blocks. The string connecting both the block is light, all three pulleys are light and frictionless. Then the minimum limiting value of mu so that the system remains in equilibrium is

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.