8 ROTATIONAL MOTION 8.5 Centre of mass
where V is the volume of the object. According to Eq. (8.20), the centre of mass
of a body of uniform density is located at the geometric centre of that body.
geometric centreaa
aFigure 72: Locating the geometric centre of a cube.For many solid objects, the location of the geometric centre follows from sym-metry. For instance, the geometric centre of a cube is the point of intersection
of the cube’s diagonals. See Fig. 72. Likewise, the geometric centre of a right
cylinder is located on the axis, half-way up the cylinder. See Fig. 73.
ometric centrehFigure 73: Locating the geometric centre of a right cylinder.As an illustration of the use of formula (8.20), let us calculate the geometriccentre of a regular square-sided pyramid. Figure 74 shows such a pyramid. Let a
be the length of each side√. It follows, from simple trigonometry, that the height
of the pyramid is h = a/ 2. Suppose that the base of the pyramid lies on the
x-y plane, and the apex is aligned with the z-axis, as shown in the diagram. It
follows, from symmetry, that the geometric centre of the pyramid lies on the z-
axis. It only remains to calculate the perpendicular distance, zcm, between the
geometric centre and the base of the pyramid. This quantity is obtained from the
axisgeh/2