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Question

A tap is attached to a water tank as shown in figure. Water level above the tap is maintained at h=0.2 m. The cross-sectional area of the tap is 2×104 m2. Assuming constant pressure throughout the stream of water, find the velocity & cross-sectional area of the stream 0.2 m below the opening of the tap :-
[Assume g=10 m/s2]


A
22 m/s;104 m2
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B
1 m/s;104 m2
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C
2 m/s;104 m2
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D
2 m/s;105 m2
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Solution

The correct option is A 22 m/s;104 m2
Velocity of water at tap outlet (v1)=2gh
=2×10×210=4=2 m/s
Area of cross-section of tap (A1)=2×104 m2
Volume flow rate of water (V)=A1v1
=22×104 m3/s
Using Bernoulli's theorem (i) between the surface of tank & opening of the tap:
ΔP=ρgH=103×10×0.2
=2000 Pa=2 kPa ...(1)

(ii) Between the opening of the tap & point 2 m below it-
ρgH=12ρ(v22v21)
2000=12×103×(v2222)
[using (1)]
2=12×(v224)
v22=8
or v2=22 m/s

Since volume flow rate for water stream coming out of tap will be constant,
V=v1A1=v2A2
22×104=22×A2
A2=104 m2
Thus, option (a) is the correct answer.

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