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Question

A horizontal platform is rotating with uniform angular velocity around the vertical axis passing through its centre. At some instant of time a non-viscous fluid of mass m is dropped at the centre and is allowed to spread out and finally fall. The angular velocity during this period will

A
decrease continuously
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B
decrease initially and will increase again
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C
remains same
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D
increase continuously
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Solution

The correct option is B decrease initially and will increase again
As there is no external torque acting on the system, therefore, the angular momentum of the system will remain constant.
Iω=constant
When non-viscous fluid spreads out, its moment of inertia(mr2) about the axis of rotation will increase as its distance(r) from the axis increases. This increases the total moment of inertia(I) of the system. Thus, angular velocity(ω) will decrease.
When the fluid falls from the surface of the platform, the effective mass of the system decreases, therefore, the total moment of inertia(I) of the system decreases. Thus, angular velocity(ω) will increase.
Hence, the angular velocity of the system first decreases and then increases.

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