Moment of inertia `I` of a solid sphere about an axis parallel to a diameter and at a distance `x` from it varies as:

The moment of inertia of a solid sphere, about an axis parallel to its diameter and at a distance of x form it is, 'I(x)'. Which one of the graphs represents the variation of 'I(x) with x correctly ?

Moment of inertia of a disc about an axis parallel to diameter and at a distance x from the centre of the disc is same as the moment of inertia of the disc about its centre axis. The radius of disc is R . The value of x is

Figure represents the moment of inertia of the solid sphere about an axis parallel to the diameter of the solid sphere and at a distance x from t. Which one of the following represents the variations of I with x ?

The moment of inertia of a solid sphere about an axis passing through the centre radius is 2/5MR^(2) , then its radius of gyration about a parallel axis t a distance 2R from first axis is

The moment of inertia of a solid sphere of radius R about its diameter is same as that of a disc of radius 2R about its diameter. The ratio of their masses is

The moment of inertia of a solid sphere of radius R about an axis passing through its diameter is /. The sphere is melted and recast into a circular disc of thickness frac{R}{3} . The moment of inertia of this disc about an axis perpendicular to plane and passing through its centre of mass is

The radius of gyration of a solid hemisphere of mass M and radius Rn about an axis parallel to the diameter at a distance (3)/(4) R is given by (centre of mass of the hemisphere lies at a height 3R//8 from the base.)

The moment of inertia of cylinder of radius a, mass M and height h about an axis parallel to the axis of the cylinder and distance b from its centre is :

The moment of inertia of a body about a given axis of rotation depends upon :-

If I_(1) is the moment of inertia of a thin rod about an axis perpendicular to its length and passing through its centre of mass and I_(2) is the moment of inertia (about central axis) of the ring formed by bending the rod, then the ratio of I_(1) to I_(2) is