For the rotating container shown in figure, differences in the heights of the fluid between the centre and the sides (in cm) is-
[Take π2=10&g=10m/s2 for calculation]
A
12.5cm
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B
18cm
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C
15cm
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D
20cm
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Solution
The correct option is A12.5cm Let the difference in the heights between the centre and the sides be h.
For a rotating fluid, the pressure difference can be given as Δp=12ρω2x2
where x is the distance between two points in a liquid, measured ⊥ from the axis of rotation.
The pressure will increase in a direction away from the axis of rotation.
i.e pB>pO ⇒Δp=pB−p0=12ρω2x2...(1)
The pressure variation along vertical direction is, pB=pA+ρgh ⇒pB−p0=ρgh...(2)
[pA=p0= atmospheric pressure]
From Eq.(1) and (2), on equating, we get ρgh=12ρω2x2 ⇒h=ω2x22g ⇒h=(5π)2×(0.1)22×10 (∵x=10cm=0.1mω=5πrad/s)