Two objects of masses 1 kg and 2 kg separated by a distance of 1.2 m are rotating about their centre of mass. Find the moment of inertia of the system.

When two objects of mass m, and m, are separated by a distance .d., the distance of mass `m_(1)` from the
centre of mass `=(m_(2)d)/(m_(1)+m_(2))` and the distance of mass `m_(2)` from the centre of mass `=(m_(1)d)/(m_(1)+m_(2))`
Hence `I=m_(1)((m_(2)d)/(m_(1)+m_(2)))+m_(2)((m_(1)d)/(m_(1)+m_(2)))^(2)`
On simplification `I=((m_(1)m_(2))/(m_(1)+m_(2)))d^(2)`
Here `(m_(1)m_(2))/(m_(1)+m_(2))` is called reduced mass denoted by `mu`. Hence, for a system of two particles rotating about their centre of mass, moment of inertia `I=mud^(2)`
In this problem, `mu=(m_(1)m_(2))/(m_(1)+m_(2))=(1xx2)/(1+2)=(2)/(3)kg`
`I=mud^(2)=(2)/(3)(1.2)^(2)=0.96kgm^(2)`