An object is released from rest. The time it takes to fall through as distance h and the speed of the object as it falls through this distance are measured with a pendulum clock. The entire apparatus is taken on the moon and the experiment is repeated

A stone is allowed to fall freely from rest. The ratio of the time taken to fall through the first metre and the second metre distance is

The system shown in the figure is released from rest. At the instant when mass M has fallen through a distance h, the velocity of m will be

An object of mass m is released from rest from the top of a smooth inclined plane of height h. Its speed at the bottom of the plane is proportional to

A stone falls freely from rest from aheight h and it travels a distance h//2 in the last second. The time of journey is

A body falling from rest has a velocity v after it falls through a distanc.e h. The distance it has to fall down further, for its velocity to become double, is ..... times h

A body freely falling from the rest has velocity v after it falls through a height h the distance it has to fall down for its velocity to become double is

An object of mass m is allowed to fall from rest along a rough inclined plane. The speed of the object on reaching the bottom of the plane is proportional to:

An object starts from rest from the point A to rest at point B on the same straight line at a distance d. It moves over the first part of the distance with an acceleration alpha m//s^(2) and for the remainder the retardation beta m//s^(2) . Find the time taken to complete the journey.

An object is dropped from rest. If it falls distance x during first second and additional distance y in next two seconds. Then ratio of x/y is

A particle is dropped from rest from a large height Assume g to be constant throughout the motion. The time taken by it to fall through successive distance of 1 m each will be :