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Question

When a rubber ball is taken to the bottom of a sea of depth 2000 m, the volume of the rubber ball decreases by 1.5%. Find the bulk modulus of the rubber ball.
Take the density of water ρ=1000 kg/m3 and g=10 m/s2.

A
2.66×109 N/m2
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B
3.3×109 N/m2
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C
6.6×109 N/m2
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D
1.33×109 N/m2
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Solution

The correct option is D 1.33×109 N/m2
We known that,
Bulk modulus , K=PΔVV ...(1)
where, P= Change in pressure
V= Original volume
ΔV= Change in the volume
given, ΔVV=1.5100
(Negative sign indicate the decrease in the volume of the rubber ball.)
Pressure at the bottom of the sea at the depth of h=2000 m is given by
P=ρgh
P=1000×10×2000
P=2×107 N/m2
Substituting the values in equation (1), we get
K=2×107(1.5100)=1.33×109 N/m2
K=1.33×109 N/m2

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