Let `I_(A) and I_(B)` be moments of inertia of a body about two axes A and B respectively. The axis A passes through the centre of massof the body but B does not. Choose the correct option.

Let I_(A) and I_(B) be moments of inertia of a body about two axes A and B respectively. The axis A passes through the centre of mass of the body but B does not. Then

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

find moment of inertia about an axis yy which passes through the centre of mass of the two particle system as shown

The moment of inertia of a hollow cubical box of mass M and side a about an axis passing through the centres of two opposite faces is equal to.

Moment of inertia of a ring of mass M and radius R about an axis passing through the centre and perpendicular to the plane is

A semi-circular ring has mass m and radius R as shown in figure. Let I_(1),I_(2) ,I_(3) " and "I_(4) be the moments of inertia about the four axes as shown . Axis 1 passes through centre and is perpendicular to plane of ring. Then , match the following.

Consider a uniform square plate shown in the figure. I_1 , I_2 , I_3 and I_4 are moment of inertia of the plate about the axes 1, 2, 3 and 4 respectively. Axes 1 and 2 are diagonals and 3 and 4 are lines passing through centre parallel to sides of the square. The moment of inertia of the plate about an axis passing through centre and perpendicular to the plane of the figure is equal to which of the followings. A. I_3 + I_4 B. I_1 + I_3 C. I_2 + I_3 D. 1/2 (I_1+I_2+I_3+I_4)

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 of the ring about an axis perpendicular to plane of ring and passing through its centre formed by bending the rod, then

The moment of inertia of a copper disc, rotating about an axis passing through its centre and perpendicular to its plane

Let I_(1) and I_(2) be the moment of inertia of a uniform square plate about axes shown in the figure. Then the ratio I_(1):I_(2) is