The momentum of a body in two perpendicular direction at any time 't' are given by `P_(x) =2t^(2) + 6` and `P_(y) = (3t^(2))/2 + 3`. The force acting on the body at t= 2 sec is

The x and y co-ordinates of a particle at any time t are given as x = 2t^2 +14 and y = 1.5t - 7 . The acceleration of particle at t = 7 sec is :

The coordinates of a moving particle at any time t are given by, x = 2t^(3) and y = 3t^(3) . Acceleration of the particle is given by

The coordinates of a moving particle at any time t are given by x = alpha t^(3) and y = beta t^(3) . The speed of the particle at time t is given by

The angular momentum of a body is given by L=5t^2+2t+1kg m^2/s .The torque acting on the body at t=1 s is

Let the function y = f(x) be given by x= t^(5) -5t^(3) -20t +7 and y= 4t^(3) -3t^(2) -18t + 3 where t in ( -2,2) then f'(x) at t = 1 is

The linear momentum P of a body varies with time and is given by the equation P=x+yt2, where x and y are constants. The net force acting on the body for a one dimensional motion is proportional to-

A body of mass 2kg travels according to the law x(t) = pt + qt^(2) + rt^(3) where , q = 4 ms^(-2) , p = 3 ms^(-1) and r = 5 ms^(-3) . The force acting on the body at t = 2s is

The x and y coordinates of a particle at any time t are given by x = 2t + 4t^2 and y = 5t , where x and y are in metre and t in second. The acceleration of the particle at t = 5 s is

A body of mass 2kg travels according to the law x(t) = pt + qt^(2) + rt^(3) where , q = 4 ms^(-1) , p = 3 ms^(-1) and r = 5 ms^(-1) . The force acting on the body at t = 2s is

The x and y coordinates of a particle at any time t are given by x=7t+4t^2 and y=5t , where x and t is seconds. The acceleration of particle at t=5 s is