The potential energy of a body mass m is `U=ax+by` the magnitude of acceleration of the body will be-

The potential energy of an object of mass m moving in xy plane in a conservative field is given by U = ax + by , where x and y are position coordinates of the object. Find magnitude of its acceleration :-

The gravitational potential energy at a body of mass m at a distance r from the centre of the earth is U. What is the weight of the body at this distance ?

What will be gain in potential energy of a body of mass m at a height equal to three times the radius 'R' of the earth ?

A body of mass 5 kg is acted upon by two perpendicular forces 8 N and 6 N Give the magnitude and direction of the acceleration of the body.

The gravitational potential energy of a body at a distance r from the center of the earth is U. The force at that point is :

The gravitational potential energy of body of mass 'm' at the earth's surface - mgR_(e) . Its gravitational potential energy at a height R_(e) from the earth's surface will be (here R_(e) is the radius of the earth)

The change in the gravitational potential energy when a body of a mass m is raised to a height nR above the surface of the earth is (here R is the radius of the earth)

Find the change in the gravitational potential energy when a body of mass m is raised to a height nR above the surface of the earth. (Here, R is the radius of the earth)

Write an expression for the potential energy of a body of mass m placed at a height h above the earth's surface. State the assumptions made, if any

If the kinetic energy of a body is directly proportional to time t, the magnitude of the force acting on the body is