A block of mass 'm' is placed on the rough floor of lift. Lift may have any magnitude of acceleration either in upward direction (or) down ward direction. The minimum friction will be

A block of mass 'm' is placed on the floor of a lift, moving upward with an uniform acceleration a = g. ( mu is the coefficient of friction between block and the floor of lift). If a horizontal force of umg acts on the block, then horizontal acceleration of the body is .......

A person of mass m is on the floor of a lift. The lift is moving down with an acceleration 'a'. Then : a) the net force is acting in downward direction and is equal to mg b) the force mg must be greater than reaction force c) the man appears to be lighter than his true weight by a factor (a/g)

A block of mass m slides down a rough inclined plane with an acceleration g/2

A block of mass'm' is resting on the floor of a lift. The coefficient of friction between the block and the floor is mu . When the lift is falling freely, the limiting frictional force between block and surface is

A block of mass m is placed on the top of another block of mass M as shown in the figure. The coefficient of friction between them is mu . The maximum acceleration with which the block M may move so that m also moves along with it is

A block of mass 10kg is placed on a rough horizontal surface having coefficient of friction mu=0.5 . If a horizontal force of 100N is acting on it, then acceleration of the will be.

A block of mass 10kg is placed on a rough horizontal surface having coefficient of friction mu=0.5 . If a horizontal force of 100N is acting on it, then acceleration of the will be.

A block of mass m is placed on a rough horizontal floor and it is pulled by a ideal string by a constant force F as shown. As the block moves towards right the friction force on block

A block of mass 1kg is kept on the tilted floor of a lift moving down with acceleration 3ms^(-2) . If the block is released from rest as shown, what will be the time taken by block to reach the bottom? What is the normal reaction on the block during the motion?

A man of mass m is on the floor of a lift. The lift moving up with acceleration 'a', then : a) the net unbalanced force on him is 'ma' b) the normal reaction exerted by the floor on the man is m(g + a) c) the apparent weight is greater than his true weight