The figure shows an isosceles triangular plate of mass M and base l. The angle at the apex is `90^(@)`. The apex lies at the origin and the base is parallel to `X-`axis.

The moment of inertia of the plate about the `y-` axis is

The figure shows an isosceles triangle plate of mass M and base L . The angle at the apex is 90^@ . The apex lies at the origin and the base is parallel to X- axis. The moment of inertia of the plate about the y- axis is

The figure shows an isosceles triangle plate of mass M and base L . The angle at the apex is 90^@ . The apex lies at the origin and the base is parallel to X- axis. The moment of inertia of the plate about its base parallel to the x- axis is

Three point masses are arranged as shown in the figure. Moment of inertia of the system about the axis OO' is

Four point masses (each of mass m) are arranged it the X-Y plane the moment of inertia of this array of masses about Y-axis is

An isosceles triangular piece is cut a square plate of side l . The piece is one-fourth of the square and mass of the remaining plate is M . The moment of inertia of the plate about an axis passing through O and perpendicular to its plane is

Let l be the moment of inertia of a uniform square plate about an axis AB that passes through its centre and is parallel to two of its sides. CD is a line in the plane of the plate that passes through the centre of the plate and makes an angle theta with AB. The moment of inertia of the plate about the axis CD is then equal to

Ler l be the moment of inertia of a uniform square plate about an axis AB that passes through its centre and is parallel to two of its sides. CD is a line in the plane of the plate that passes through the centre of the plate and makes an angle theta with AB. The moment of inertia of the plate about the axis CD is then equal to

Let l be the moment of inertia of a uniform square plate about an axis AB that passes through its centre and is parallel to two of its sides. CD is a line in the plane of the plate that passes through the centre of the plate and makes an angle theta with AB. The moment of inertia of the plate about the axis CD is then equal to

Figure shows a thin metallic triangular sheet ABC . The mass of the sheet is M . The moment of inertia of the sheet about side AC is : .

A concentric hole of radius R/2 is cut from a thin circular plate of mass M and radius R. The moment of inertia of the remaining plate about its axis will be