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A horizontal disc is freely rotating abo...

A horizontal disc is freely rotating about a vertical axis passing through its centre at the rate of 100 rpm. A bob of wax of mass 20 g falls on the disc and sticks to it a distance of 5 cm from the axis. If the moment of inertia of the disc about the given axis is `2xx10^(-4)kgm^(2)`, find new frequency of rotation of the disc.

Text Solution

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`I_(1)` Momnet of inertia of the disc `=2xx10^(-4)kgm^(2)`
`I_(2)` = Moment of inertia of the disc+Moment of inertia of the bob of wax on the dise
`=2xx10^(-4)+mr^(2)=2xx10^(-4)+20xx10^(-3)(0.05)^(2)`
`=2xx10^(-4)+0.5xx10^(-4)=2.5xx10^(-4)kgm^(2)`
`(n//t)_(1)=100" rpm" ,(n//t_(2))=?`
By the principle of conservation of angular momentum,
`I_(1)omega_(1)=I_(2)omega_(2)" "I_(1)2pi((n)/(t))_(1)=I_(2)2pi((n)/(t))_(2)`
`2xx10^(-4)xx100=2.5xx10^(-4)((n)/(t))_(2)`
`((n)/(t))_(2)=(100xx2)/(2.5)=80" rpm"`
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