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Question

A uniform rod AB,12 m long and weighing 24 kg, is supported at end B by a flexible light string and a lead mass (of very small size) of 12 kg is attached at end A. The rod floats in water with half of its length submerged. For the situation described, choose the correct statement(s). [Take g=10 m/s2, density of water =1000 kg/m3]


A
The tension in the string is 40 N.
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B
The tension in the string is 120 N.
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C
The volume of the rod is 6.4×102 m3.
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D
The point of action of the buoyant force is C (centre of mass of rod).
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Solution

The correct options are
A The tension in the string is 40 N.
C The volume of the rod is 6.4×102 m3.
The length CP=OC=l2
Bouyant force or upthrust (U) will act at the mid point(M) of the length of the rod submerged in water.
i.e option (d) is wrong.
OM=MC=l4


From the FBD of rod, applying equilibrium condition in vertical direction,
T+U=W1+W2=360 N ...(i)
Upthrust will be given by
U=Vρg, where V= volume of immersed rod, i.e half of total volume.
U=V2ρwg=(V/2)(103)(10)
U=0.5×104V ...(ii)
For rotational equilibrium, balancing the moments of the forces on the rod about point M:
Net anticlockwise moment=Net clockwise moment
120(l4cosθ)+T(3l4cosθ)=240(l4cosθ)
T=(6030)×43
T=40 N
i.e Option (a) is correct and (b) is wrong.
Now from eqs. (i) and (ii) we get,
U=360T=36040=320 N
320=0.5V×104
V=6.4×102 m3
where V is the volume of rod.
Option (c) is also correct.

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