Two identical semicircular discs of mass 'w' each and radius 'F' areplaced inthe XY (horizontal) plane and the YZ (vertical) plane, respectively. They are so placed that the yhave their common diameter along the 7-axis. Then, the moment of inertia `I_(n)` of the system about the appropriate axis is given by `I^(n)` refers to moment of inertia about axis n-where n isX, Y, Z)

Two identical semicircular discs of mass 'm' each and radius 'R' are placed in the XY (horizontal) plane and the YZ (vertical) plane, respectively. They are so placed that they have their common diameter along the y-axis. Then, the moment of inertia I_(n) of the system about the appropriate axis is given by ( I_(n) refers to moment of inertia about axis n-where n is X, Y, Z)

Moment of inertia of a disc about its own axis is I. Its moment of inertia about a tangential axis in its plane 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

The diagram shows a uniform disc of mass M & radius ' a ', if the moment of inertia of the disc about the axis XY is I , its moment of inertia about an axis through O and perpendicular to the plane of the disc is

The diagram shows a uniform disc of mass M & radius ' a ', if the moment of inertia of the disc about the axis XY is I , its moment of inertia about an axis through O and perpendicular to the plane of the disc is

The diagram shows a uniform disc of mass M & radius ' a ', if the moment of inertia of the disc about the axis XY is I , its moment of inertia about an axis through O and perpendicular to the plane of the disc is

A uniform disc of radius R lies in x-y plane with its centre at origin. Its moment of inertia about the axis x=2R and y=0 is equal to the moment of inertia about the axis y=d and z=0, where d is equal to

Moment of inertia of a uniform ring about its diameter is I. Then its moment of inertia about axis passing through its centre and perpendicular to its plane is

Two identical concentric rings each of mass m and radius R are placed perpendicularly. What is the moment of inertia of the system about the axis of one of the rings ?