Given that the displacement of a particle is given by `x=Asin^2 Kt,` where t denotes the time. The unit of K is

Displacement of a particle is given by x=4(cospit+sinpit)m . Find its amplitude.

A body of mass 6 kg is acted upon by a force which causes a displacement in it given by x = t^2/4 meter, where t is the time in second. The work done by the force in 2 seconds is

A particle is travelling along a straight line OX. The distance x (in metres) of the particle from O at a time t is given by x=37+27t-t^(3) where t is time in seconds. The distance of the particle from O when it comes to rest is

A particle moves along X-axis and its displacement at any time is given by x(t) = 2t^(3) -3t^(2) + 4t in SI units. The velocity of the particle when its acceleration is zero, is

The relation between the time taken and the displacement of a moving body is s = 2t - 3t^(2) + 4t^(3) , where the unit of s is in metre and that of t is in second. Find out the displacement, velocity and acceleration of the body 2s after initiation of the journey.

The distance-time graph of a moving particle is given by x = 4t -6t^(2) . At what time would the speed of the particle be zero ? ( x is in metre and t is in second).

If the displacement of a particle changes with time as sqrt(x)=t+3 , then the velocity of the particle will be proportional to

The displacement (s ) of a particle depends on time (t) as s = 2at^(2)-bt^(3) . Then