The position (x) of a particle of mass 2 kg moving along x-axis at time t is given by `x=(2t^(3))` metre. Find the work done by force acting on it in time interval t=0 to t=2 is :-

The velocity (v) of a particle of mass m moving along x-axis is given by v=alphasqrt(x) , where alpha is a constant. Find work done by force acting on particle during its motion from x=0 to x=2m :-

The position of a particle moving along a straight line is given by x =2 - 5t + t ^(3). Find the acceleration of the particle at t =2 s. (x is metere).

A body of mass 2 kg is kept on a rough horizontal surface as shown in the figure. Find the work done by frictional force in the interval t=0 to t=5 sec

The velocity of a body of mass 2 kg as a function of t is given by v(t) = 2t hati + t^(2)hatj . Find the momentum and the force acting on it, at time t = 2s.

The position (x) of body moving along x-axis at time (t) is given by x=3t^(3) where x is in matre and t is in second. If mass of body is 2 kg, then find the instantaneous power delivered to body by force acting on it at t=2 s.

Position of particle moving along x-axis is given as x=2+5t+7t^(2) then calculate :

Position of a particle moving along x-axis is given by x=2+8t-4t^(2) . The distance travelled by the particle from t=0 to t=2 is:-

A particle is moving along x- axis whose position is given by x=4-9t+(t^(3))/(3) then choose the CORRECT statement for thes motion -

The position of a particle moving along x-axis varies eith time t as x=4t-t^(2)+1 . Find the time interval(s) during which the particle is moving along positive x-direction.

The position (x) of body moving along x-axis at time (t) is given by x=3t^(2) where x is in matre and t is in second. If mass of body is 2 kg, then find the instantaneous power delivered to body by force acting on it at t=4 s.