A particle of mass 2 kg starts motion at time t = 0 under the action of variable force F = 4t (where F is in N and t is in s). The work done by this force in first two

A body covers a distance of 4m under the action of force F = (17 – 4x)N where x is the distance in metres. The work done by the force is

A body covers a distance of 4m under the action of force F=(17-4x)N where x is the distance in metres. The work done by the force is

A body covers a distance of 4m under the action of force F=(17-4x)N where x is the distance in metres.The work done by the force is

A body covers a distance of 4m under the action of force F=(17-4x)N where x is the distance in metres.The work done by the force is

The displacement x in meter of a particle of mass mkg moving in one dimenstion under the action of a force is related to the time t in second by the equation x=(t-3)^2 . The work done by the force (in joules) in first six seconds is

A particle of mass 2kg starts to move at position x=0 and time t=0 under the action of force F=(10+4x)N along the x- axis on a frictionless horizontal track . Find the power delivered by the force in watts at the instant the particle has moved by distance 5m .

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

The displacement x in meters of a particle of mass m kg moving in one dimension under the action of a force is related to the time t in seconds by the equation t=sqrtx+3 , , the work done by the force (in J) in first six seconds is :-

Under the action of a force, a 2 kg body moves such that its position x as a function of time is given by x =(t^(3))/(3) where x is in meter and t in second. The work done by the force in the first two seconds is .

The displacement x of a particle of mass m kg moving in one dimension, under the action of a force, is related to the time t by the equation t=4x+3 where x is in meters and t is in seconds. The work done by the force in the first six seconds in joules is