For equilibrium of the system, value of mass m should be :-

What is possible value of shunt should be ?

Necessary condition of equilibrium is that acceleration of body should be zero.

The masses and radii of the earth an moon are M_(1) and R_(1) and M_(2), R_(2) respectively. Their centres are at a distacne r apart. Find the minimum speed with which the particle of mass m should be projected from a point mid-way between the two centres so as to escape to infinity.

The pulleys and strings shown in fig are smooth and of negligible mass. For the system to remain in equilibrium the angle theta should be:

How to get thermal equilibrium in the system ?

In the fig. mass M=10gm. Is placed on an inclined plane. In order to keep it at rest, he value of mass m will be:

Arrangem ent in which the pulley are smooth and strings are of negligible mass. For the system to remain in equilibrium, the angle 0 should be .....

Find force required to keep the system in equilibrium. The dimension of the system are d=0.3m and a=0.2m. Assuming the rods to be massless

In a hypothetical system , a particle of mass m and charge -3 q is moving around a very heavy particle charge q . Assume that Bohr's model is applicable to this system , then velocity of mass m in the first orbit is

The system shown in the figure is in equilibrium The maximum value of W, so that the maximum value of static frictional force on 100kg. body is 450N, will be: