A uniform steel wire of cross-sectional area $0.20 m m^{2}$ is held fixed by clamping its two ends. Find the extra force exerted by each clamp on the wire if the wire is cooled from $100^{\circ} C$ to $0^{\circ} C$ . Young's modulus of steel = $2.0 \times 10^{11} N / m^{2}$ . Coefficient of linear expansion of steel = $1.2 \times 10^{- 5} /^{\circ} C$ .

500 N

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480 N

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4.8 N

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48 N

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Solution

The correct option is D 48 N
When the wire cools down the length of the wire should decrease. But as it is clamped, the length remains the same. This creates a strain in the wire, thereby stressing it.

Let, $l_{100}$ and $l_{0}$ be the lengths at $100^{\circ} C$ and $0^{\circ} C$ respectively. We know -

$L_{100}$ = $L_{0} (1 + 100 α)$ .

At $0^{\circ} C$ , the unstrained length would be $l_{0}$ .

But, the strained length is $l_{100}$ (which is constant because of the clamping).

$∴$ Strain = $[\frac{l_{100} - l_{0}}{l_{0}}]$ = $100 α$ . Also, stress = (Young's modulus) $\times$ strain.

$∴$ $T$ (the extra tension developed = force at the clamps) = stress $\times$ area,

$\Rightarrow$ $T$ = $2 \times 10^{11} \times 1.2 \times 10^{- 5} \times 100 \times 6.2 \times 10^{- 6} N$

$\Rightarrow$ $T$ = $48 N$ .

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