A hollow hemisphere of mass 4m is placed as shown in figure . Two point masses m each are fixed to it at points P and Q on diametrically opposite points. The position of center of mass of the system is

Find the velocity of center of mass of the system shown in the figure.

Which of the following points is the likely position of the centre of mass of the system shown in Fig.

Which of the following points is the likely position of the centre of mass of the system shown in Fig.

Which of the following points is the likely position of the centre of mass of the system shown in Fig.

In the diagram three point masses 'm' each are fixed at the corners of an equilateral triangle.Moment of inertia of the system abouty-axis is N/10ma^2 , N is:

An isolated smooth ring of mass M = 2m with two small beads each of mass m is as shown in the figure. Initially both the beads are at diametrically opposite points and have velocity v_(0) (for each) in same direction. The speed of the beads just before they collide for the first time is (complete system is placed on a smooth horizontal surface and assume each point of ring is touching the surface)

A circular ring of mass 6kg and radius a is placed such that its center of lies at the origin. Two particles of masses 2 kg each are placed at the intersecting points of the circle with positive X-axis and positive Y-axis. Then, the angle made by the position vector of center of mass of entire system with X-axis is

A mass m is placed inside a hollow sphere of mass M as shown in figure. The gravitaional force on mass m is

Two uniform thin rods each of length L and mass m are joined as shown in the figure. Find the distance of centre of mass the system from point O