A box is being displaced by a machine of fixed power along a straight line . The displacement is time t in proportional to

A body starts from rest, under the action of an engine working at a constant power and moves along a straight line. The displacement S is given as a function of time (t) as:

A box is moved along a straight line by a machine delivering constant power. The distance moved by the body in time t is proportional to

A machine, applying a constant power is driving an object along a straight line. Displacement of the object in time t is

A particle is moving along a straight line OX. The displacement (x) from the point o and the time (t) taken are related as x = 40 +12t- t^(3) , where x is in metre and t in second. How far would the particle move before coming to rest ?

If a car is driven along a straight path by an engine of constant power , find the displacement -time relation.

Two equal point charges are placed on x=-a and x=+a on the x=axis. Another point charge Q is placed on the origin. IF this charge is displaced a small distance x along x-axis, then the change of potential energy approximately will be proportional to

Statement I : If the average velocity of a body is equal in two successive time intervals, its velocity is a constant. Statement II : When a body travels with constant velocity its displacement is proportional to time.

A partiole is moving in a straight line such that its velocity at time t is proportional to t^(5) . Then its acceleration is proportional to

The equation x= A sin omega t gives the relation between the time t and the corresponding displacement x of a moving particle where A and omega are constant. Prove that the acceleration of the particle is proportional to its displacement and is directed opposite to it.