In fig. the block of mass M is at rest on the floor . At what acceleration with which should a boy of mass m climb along the rope of negligible mass so as to lift the block from the floor?

The block of mass m is at rest. Find the tension in the string A .

A rope of negligible mass passes over a pulley of negligible mass attached to the ceiling, as shown in figure. One end of the rope is held by Student A of mass 70 kg , who is at rest on the floor. The opposite end of the rope is held by Student B of mass 60 kg , who is suspended at rest above the floor. The minimum acceleration a_(0) with which the Student B should climb up the rope to lift the Student A upward off the floor. (g=10m//s^(2))

A rope of negligible mass passes over a pulley of negligible mass attached to the ceiling, as shown in figure. One end of the rope is held by Student A of mass 70 kg , who is at rest on the floor. The opposite end of the rope is held by Student B of mass 60 kg , who is suspended at rest above the floor. The minimum acceleration a_(0) with which the Student B should climb up the rope to lift the Student A upward off the floor. (g=10m//s^(2))

With what acceleration a should the box of figure descends so that the block of mass M exerts a force Mg/4 on the floor of the box?

A block of mass 1.0 kg rests on a wedge of angle theta . The acceleration which should be given to the wedge so that the block falls freely is :

With what acceleration 'a' should a box descend so that a block of mass M placed in it exerts force Mg/4 on the floor of the box?

A block of mass 2 kg rests on the floor of an elevator , which is moving down with an acceleration 'g' , then the apparent weight of the block is [ take g = 10 m//s^(2) ]

A small block of mass m rests on a smooth wedge of angle theta . With what horizontal accelaration a should the wedge be pulled, as shown in fig, so that the block falls freely?

A small block of mass m rests on a smooth wedge of angle theta . With what horizontal accelaration a should the wedge be pulled, as shown in fig, so that the block falls freely?

A block of mass 25 kg is raised by a 50kg man in two different ways as shown in fig. what is the action on the floor by the man in the two cases? If the floor yields to a normal force of 700N , which mode should the man adopt to lift the block without the floor yielding?