In fig., a person wants to rise a block lying on the ground to a height h. In both the cases, if the time required is same, then in which case he has to exert more force? Assuem pulleys and strigns light.

In the figure shown, a person wants to raise a block lying on the ground to a height h. in both the cases if time required is same then in which case he has to exert more force. Assume pulleys and strings light.

In the figure shown , a person wants to raise a block lying on the ground to a height h . In which case he has to exert more force. Assume pulleys and strings are light .

In the figure show , a person wants to raise a block lying on the ground to a height h . In which case he has to exert more force. Assume pulleys and strings are light .

The block has to be raised to a height L in the same time t. In which case force required is more ?

A small block is shot into each of the four track as shown in Fig 15.7.1. Each of the track rises to the same height. The speed with which the block enters the track is the same in all cases. At the highest point of the track, the normal reaction is maximum in

In a garden a spherical sprinkler is used at the end of the lose from which the speed of the flowing water is the same to every direction. The water beam which is directed vertically upward reaches a height of h . Once the sprinkler is placed to the ground and at another time ti a height of h . By what factor will the watered area of greater in the second case ? (Neglect air resistance and consider the pressure in the sprinkler constant.)

Two swimmers start at the same time from point A one bank of a river to reach point B on the other bank, lying directly oppostie to point A. one of them crosses the river along the straight line AB, while the other swims at right angles to the stream and then walks the distance, which he has been carried awayby the stream to get to point B. Both swimmers reach point B at the same time. what was the velocity (assumed uniform) of his walking if velocity of both the swimmers in still water is 2.5 km h^(-1) and the stream velocity is 2 km h^(-1) ?

A man whose mass is m kg jumps vertically into air from the sitting position in which his centre of mass is at a height h_(1) from the ground. When his feet are just about to leave the ground his centre of mass is at height h_(2) from the ground and finally centre of mass rises to h_(3) above the ground when he is at the top of the jump. what is the average upward force exerted by the ground on him?

A block of mass m_(1) lies on the top of fixed wedge as shown in fig. and another block of mass m_(2) lies on top of wedge which is free to move as shown in fig. At time t=0 both the blocks are released from rest from a vertical height h above the respective horizontal surface on which the wedge is placed as shown. There is no friction between block and wedge in both the figures. Let T_(1) and T_(2) be the time taken by the blocks respectively to just reach the horizontal surface. then

A man has fallen into a ditch of width d and two of his friends are slowly pulling him out using a light rope and two fixed pulleys as shown in figure. Show that the force (assumed equal for both the friends) exerted by each friend on the road increases as the man moves up. Find the force when theman is at a depth h.