A body is moving according to the equation `x = at +bt^(2) - ct^(3)` where x = displacement and a,b and c are constants. The acceleration of the body is

A body is moving according to the equation x=at+bt^(2)-ct^(3) . Then its instantaneous speed is given By :-

A body is moving according to the equation x=at+bt^(2)-ct^(3) . Then its instantaneous speed is given By :-

A body is moving according to the equation x=at+bt^(2)-ct^(3) . Then its instantaneous speed is given By :-

The linear momentum P of a body moving in one dimension varies with time according to the equation P = at^(3) + "bt" where a and b are positive constants. The net force acting on the body is :

The linear momentum p of a body moving in one dimension varies with time t according to the equation p = a + bt^(2) , where a and p are positive constant. The net force acting on the body is

A body is moving with constant acceleration :

The linear momentum p of a body moving in one dimension varies with time according to the equation p=a+bt^(2) where a and b are positive constants. The net force acting on the body is

The linear momentum p of a body moving in one dimension varies with time according to the equation p=a+bt^(2) , where a and b are positive constants. The net force acting on the body is

The linear momentum p of a body moving in one dimension varies with time according to the equation p=a+bt^(2) where a and b are positive constants. The net force acting on the body is

The displacement x of a particle at time t moving along a straight line path is given by x^(2) = at^(2) + 2bt + c where a, b and c are constants. The acceleration of the particle varies as