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Consider a cylinder rolling on a horizon...

Consider a cylinder rolling on a horizontal plane. Its linear velocity is `v` and rotational angular velocity is `omega`. Find its angular momentum about point `P` on the ground as shown in Fig. What happens to this angular momentum if the cylinder is rotating in opposite direction but moving translationally in the same direction.

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In the given situation, cylinder tha both translational and rotational motion. We find its angular momentum about `P` by using the equation `vecL=vecL_(cm) +vecrxxmvecv`
The angular momentum of the clinder about its axis of rotation passing through its centre of mass is given by
`vecL_(C)=Iomega(-hatk)=(1/2mr^(2))omega(-hatk)`
And the angular momentum of this cyliner's translation motion about `P` is
`vecL=1/2mr^(2)omega+mvR(-hatk)`
If the cylinder rotates in anticlockwise directioiin and mvoes in the same direction, its total angular momentum wil now be written as
`vecL=1/2mr^(2)omega(hatk)+mvR(-hatk)=(1/2mr^(2)omega-mvR)(-hatk)`
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