In a Searle’s experiment, the diameter of the wire as measured by a screw gauge of least count 0.001 cm is 0.050 cm. The length, measured by a scale of least count of 0.1 cm, is 110.0 cm. When a weight of 50 N is suspended from the wire, the extension is measured to be 0.125 cm by a micrometer of least count 0.001 cm. Find the maximum error in the measurement of Young’s modulus of the material of wire from these data.
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Explanation:
=> It is Given here:
d = 0.050vcm;
Δd = 0.001 cm
l = 110 cm
Δl = 0.1 cm
W = 50 N
δl = 0.125 cm
Δ(δl) = 0.001 cm
=> Y = Fl / π(d/2)^2δl
= 50(110)/3.14(0.050/2 * 10^-2)^2 (0.125 * 10^-2)
=2.24 * 10^13 Nm^-2
=> Now, ΔY/Y = Δl/l + 2* Δd/d + Δδl /δl = 0.1/110 + 2* 0.001/0.050 + 0.001/0.125 = 0.0489
ΔY/Y = 0.0489
ΔY = 0.0489 * 2.24 * 10^13 Nm^-2
= 0.1095 * 10^13 Nm^-2
=> Therefore,
Y = (2.24 ± 0.1095 )* 10^13 Nm^-2
Thus, the maximum error in the measurement of Young’s modulus of the material of wire from these data is (2.24 ± 0.1095 )* 10^13 Nm^-2.
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