A steel wire of length 3.2 m (Ys = 2.0 × 1011 Nm-2) and a copper wire of length 4.4 m (Yc = 1.1 × 1011 Nm-2), both of radius 1.4 mm are connected end to end. When stretched by a load, the net elongation is found to be 1.4 mm. The load applied, in Newton, will be:
\((Given: π = \frac{22}{7})\)
A steel wire of length 3.2 m (Ys = 2.0 × 1011 Nm-2) and a copper wire of length 4.4 m (Yc = 1.1 × 1011 Nm-2), both of radius 1.4 mm are connected end to end. When stretched by a load, the net elongation is found to be 1.4 mm. The load applied, in Newton, will be:
\((Given: π = \frac{22}{7})\)
- 360
- 160
- 1080
- 154
The Correct Option is D
Solution and Explanation
The correct answer is (D): 154
\(Δl_s + Δl_c = 1.4\)
\(\frac{Wl_s}{Y_sA} + \frac{Wl_c}{Y_c×A} = 1.4×10^{-3}\)
\(W = \frac{1.4×10^{-3}}{[\frac{3.2}{2×(π×1.4×10^{-3})^2}+\frac{4.4}{1.1×(π×1.4×10^{-3})^2]}\frac{1}{10^{+11}}}\)
\(W≃154N\)
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Concepts Used:
Stress and Strain
Stress and Strain are the terms in physics, which are used to explain deformation of solids.
What is Stress?
Force applied per unit area is known as stress.
- σ=F/A
- σ is stress applied
- F is force applied
- A is that the area of force applied
- Stress is measured by unit N/m2
What is Strain?
As a result of stress, change of shape is observed in the body. The change or deformity consequential to the stress acting on the body is called strain. Strain can be defined as the amount or measure of deformity that takes place due to the force applied on the object.
Strain is denoted with (ε). It has no units.
Longitudinal Strain = Δ L/L
Relation Between Stress and Strain
The English scientist Robert Hooke, while studying spring and elasticity, noticed that many materials displayed an identical property when the stress-strain relationship was studied. There exists a linear region where the force required to stretch the material was proportional to the extension of the material; this is called Hooke’s law. Mathematically, the law is presented as:
F = -k.x
Where, F = the force
x = the extension length
k = spring constant in N/m
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