Three idential spherical shells each of mass `m` and radius `r` are placed as shown in Fig. Consider an axis XX' which is touching the two shells and passing through diameter of third shell. Moment of Inertia of the system consisting of these three spherical shells about XX' as axis is :

Three identical solid discs, each of mass M and radius R, are arranged as shown in figure. The moment of inertia of the system about an axis AB will be

Three rings each of mass M and radius R are arranged as shown in the figure. The moment of inertia of the system about YY¢ will be

A thin spherical shell of mass M and radius R has a small hole. A particle of mass m released at its mouth. Then

A spherical shell of mass m and radius R is given then which of the following is incorrect for inside the sheel

Three discs each of mass M and radius R are placed in contact with each other as shown in figure here. Then the MI of the system about an axis XX' is

Two identical spherical balls of mass M and radius R each are stuck on two ends of a rod of length 2R and mass M (see figure). The moment of inertia of the system about the axis passing perpendicularly through the centre of the rod is

Three rings, each of mass m and radius r , are so placed that they touch each other. Find the moment of inertia about the axis as shown in Fig.

Three rings each of mass m and radius r are so placed that they touch each other. The radius of gyration of the system about the axis as shown in the figure is

Thee spheres each of mass M and radius R are placed in contact with each other as shown in the figure here. Then the moment of inertia of the system about the axis CC' is

A spherical shell of mass M and radius R filed completely with a liquid of same mass and set to rotate about a vertical axis through its centre has a moment of inertia I_(1) about the axis. The bottom. If moment of inertia of the system is I_(2) when the shell is half filled and I_(3) is the moment of inertia when entire water drained off then :