A body of mass 3 kg acted upon by a constant force is displaced by 's' meter, given by the relation `s=(1)/(3)t^(2)`, where t is in second. Work done by the force in 2 seconds is

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

The relation between the displaement x and the time t for a body of mass 2 kg moving under the action of a force is given by x=t^3//3 , where x is in metre and t in second . Calculate the work done by the body in the first 2 seconds .

The displacement x of a particle moving in one dimension under the action of a constant force is related to time t by the equation t = sqrt(x+3) where x is in meters and t is in seconds. Finds the displacement (in metres ) of the particle when its velocity is zero.

A body of mass 3 kg is under a force which causes a displacement in it given by S = t^2//3 in m. Work done by the force is 2 sec

A force is acting on a mass of 6kg. Displacement x of the mass is related with time t as x=(t^2)/4 m. work done by the force in 2 s is

The magnetic flux linked with a coil satisfies the relation phi=4t^(2)+6t+9 Wb where t is the time in second. The e.m.f. induced in the coil at t =2 second is

The displacement of a body of mass 3 kg under the action of a force is s=(t^2)/(3) metre. The work done in time 2s by the same force (in J) is

A body of mass 10 kg is moving with a velocity of 100 m/s. find the force needed to stop it in 5 seconds.