Three bodies are moving as shown below. The total kinetic energy of the whole system of the three masses is `-`

Three charges -q,+Q and -q are placed in a straight line as shown If the total potential energy of the system is zero, then the ratio (q)/(Q) is

A body of mass m moving with a velocity v is approaching a second object of same mass but at rest. The kinetic energy of the two objects as viewed from the centre of mass is

Three point masses are arranged as shown in the figure. Moment of inertia of the system about the axis OO' is

The total energy stored in the condenser system shown in the figure will be

Two bodies A and B of each of mass 100 gm are allowed to move along a frictionless typical path as shown below. In order to have the same kinetic energy for the both the bodies at M , the initial velocity that should be given to B , if A starts from rest is

The total energy stored in the condensery system shown in the figure wili be

Two bodies of different masses are moving with same kinetic energy. Then, the ratio of their moment is equal to the ratio of their

Three small balls of masses 1kg, 2kg and 3kg are moving in a plane and their velocities are 1 ms^(-1) ,2ms^(-2) and 3ms^(-1) respectively as shown . The total angular momentum of the system of three balls about point P at the given instant of time is

Find the relation in the accelerations of the three masses shown in fig.

A body is in pure rolling over a horizontal surface. If the rotational kinetic energy of that body is 40% of its total kinetic energy, then the body is