By the theorem of perpendicular axes, if a body be in X-Z-plane then :-

The theorem of perpendicular axes is applicable for

State and prove theorem of perpendicular axes.

By the theorem of parallel axes:

(a) Prove the theorem of perpendicular axes. (Hint : Square of the distance of a point (x, y) in the x-y plane from an axis through the origin and perpendicular to the plane is ^(x2)+y^(2)) . (b) Prove the theorem of parallel axes. (Hint : If the centre of mass of a system of n particles is chosen to be the origin summ_(i)r_(i)=0 ).

The theorem of perpendicular axes is not applicable for determination of moment of inertia along the diameter, for which of the following body :-

Theorem of parallel axes

Assertion: There is a thin rod AB and a dotted line CD. All the axes we are talking about are perpendicular to plane . As we take different axes moving from A to D, moment of inertia of the rod may first decrease then increase. Reason: Theorem of perpendicular axis cannot be applied here.

If a body is lying in the Y-Z plane, then according to theorem of perpendiculr axes the correct expression will be

Moment of inertia of a body about two perpendicular axes X and Y in the plane of lamina are 20 kg m and 25 kg m respectively. Its moment of inertia about an axis perpendicular to the plane of the lamina and passing through the point of intersection of X and Y axes is