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Three rods each of mass m and length l are joined together to form an equilateral triangle as shown in figure. Find the moment of inertial of the system about an axis passing through its centre of mass and perpendicular to the plane of the particle.

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Moment of inertial of rod BC about an axis perpendicular to plane of triangle ABC and passing through the mid-point of rod BC
plane of triangle ABC and passing through the mid-point of rod BC
(i.e., D) is
`I_(1)=(ml^(2))/(12)`
`r=BDtan30^(@)`
or `r=((l)/(2))((1)/(sqrt(3)))=(l)/(2sqrt(3))`
From theorem of parallel axis, moment of inertia of this rod about the asked axis is
`I_(2)=I_(1)+mr^(2)=(ml^(2))/(12)+m((l)/(2sqrt(2)))^(2)=(ml^(2))/(6)`
`therefore` moment of inertia of all the three rods is
`I=3I_(2)=3((ml^(2))/(6))=(ml^(2))/(2)`
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