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Question

A mass of 100 gram is attached to the end of a rubber string 49 cm long having an area of cross-section 20 mm2. The string is whirled around horizontally at a constant speed of 40 rps in a circle of radius 51 cm. Find the ratio of longitudinal stress and longitudinal strain in the rubber string.

A
3π2×109 Nm2
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B
4π2×109 Nm2
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C
4π2×108 Nm2
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D
6π2×108 Nm2
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Solution

The correct option is C 4π2×108 Nm2
Tension in the string is given by
F=mω2r (centrifugal force)
F=m×r(2πN)2, where N=40 rps
F=100×51×(2π×40)2 dyne
[force is in dynes when units of mass and length are gm and cm respectively]

Also, l=49 cmΔl=5149=2 cm
A=20 mm2=20×102 cm2
As we know,
Longitudinal stress =(FA) &
Longitudinal strain =(Δll)

Therefore, Longitudinal stressLongitudinal strain=F×lA×Δl
=100×51×4π2×1600×4920×102×2
4π2×109 dyne cm2
=4π2×108 Nm2

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