![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 toA. $\\dfrac{{5M{a^2}}}{3}$B. $\\dfrac{{5M{a^2}}}{6}$C. $\\dfrac{{5M{a^2}}}{{12}}$D. $\\dfrac{{5M{a^2}}}{{18}}$ 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 toA. $\\dfrac{{5M{a^2}}}{3}$B. $\\dfrac{{5M{a^2}}}{6}$C. $\\dfrac{{5M{a^2}}}{{12}}$D. $\\dfrac{{5M{a^2}}}{{18}}$](https://www.vedantu.com/question-sets/3de3d808-504b-4aa0-9210-b2e44ee2f8461875743207797768477.png)
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 toA. $\\dfrac{{5M{a^2}}}{3}$B. $\\dfrac{{5M{a^2}}}{6}$C. $\\dfrac{{5M{a^2}}}{{12}}$D. $\\dfrac{{5M{a^2}}}{{18}}$
![Calculator for Engineers - Area Moment of Inertia, centroid, section modulus of Hollow rectangular section Calculator for Engineers - Area Moment of Inertia, centroid, section modulus of Hollow rectangular section](https://civilengineeronline.com/str/hrectangle2.png)