The displacement by the bolt during its free fall time w.r.t. ground frame

An elevator car whose floor to ceiling distance is equal to 2.7 m starts ascendiung with constant acceleration 1.2(m)/(s^(2)) , 2 sec after the start a bolt begins falling from the ceiling of the car. Answer the following question g=9.8 m//s^(2) Distance covered by the bolt during the free fall time w.r.t. ground frame.

Find the acceleration of C w.r.t. ground.

If d denotes the distance covered by a car in time t and vecs denotes the displacement by the car during the same time, then :

If a person is pushing a box inside a moving train , the work in the frame of earth will be: vec s_(0) = displacement of the train relative to ground. vec s =displacement of the box w.r.t. train.

A block ofmass m is attached with a spring in its natural length, of spring constant k. The other end A of spring is moved with a constant acceleration 'a' away from the block as shown in the figure -3.74 . Find the maximum extension in the spring. Assume that initially block and spring is at rest w.r.t ground frame:

The displacement x of the body is motion is given by x=A sin (omega t+ theta) , Determine the time at which the displacement is maximum.

A man of mass m_(1) is standing on a platform of mass m_(2) kept on a smooth horizontal surface. It the man moves a distance d w.r.t., the platform, find the displacement of the platform w.r.t., ground.