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A 30-cm-diameter, 90-cm-high vertical cylindrical container is partially filled with 60-cm-high water. Now the cylinder is rotated at a constant angular speed of 180 rpm. Determine how much the liquid level at the center of the cylinder will drop as a result of this rotational motion.

User DjebbZ
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1 Answer

18 votes
18 votes

Answer:


\triangle h_c =0.204m

Step-by-step explanation:

Diameter
d=30cm

Height
h=90cm

Fill height
h_f=60cm

Angular speed
N=180rpm

Generally the equation for Angular velocity is mathematically given by


\omega=(2 \pi*N)/(60)


\omega=(2 \pi*180)/(60)


\omega=18.85rads/s

Generally the equation for Liquid surface is mathematically given by


\mu_s=h*(\omega^2*0.15^2)/(4*9.81)


\mu_s=0.396m

Therefore the liquid drop at center due to rotation is


\triangle h_c =h-\mu_s


\triangle h_c =0.60-0.396


\triangle h_c =0.204m

User Dave Levy
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