A square plate lies in the xy plane with its centre at the origin and its edges parallel to the x and y axes. Its moments of inertia about the x, y and z axes are `I_(x), I_(y)` and `I_(Z)` respectively, and about a diagonal it is `I_(D)`

A uniform rectangular plate has side length l and 2 l . The plate is in x - y plane with its centre at origin and sides parallel to x and y axes. The moment of inertia of the plate about an axis passing through a vertex (say A) perpendicular to the plane of the figure is I_(0) . Now the axis is shifted parallel to itself so that moment of inertia about it still remains I_(0) . Write the locus of point of intersection of the axis with xy plane

A uniform disc of radius R lies in the x-y plane, with its centre at origin. Its moment of inertia about z-axis is equal to its moment of inertia about line y = x + c . The value of c will be. .

A uniform disc of radius R lies in xy-plane with its centre at origin. Its moments 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 . What is the value of d ?

Four identical rods each of mass m and length l are joined to form a rigid square frame. The frame lies in the xy plane, with its centre at the origin and the sides parallel to the x and y axes. Its moment of inertial about

A rod is placed along the line, y=2x with its centre at origin. The moment of inertia of the rod is maximum about.

Moment of inertia of disc about the tangent parallel to plane is I. The moment of inertia of disc about tangent and perpendicular to its plane is