In an electric circuit, a wire of resistance 10 Ω is used. If this wir

In an electric circuit, a wire of resistance 10 Ω is used. If this wire is stretched to a length double of its original value, the current in the circuit would become :

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half of its original value.

double of its original value.

one-fourth of its original value.

four times of its original value.

Answer is Right!

Answer is Wrong!

This question was previously asked in

UPSC NDA-1 – 2023

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The resistance of a wire depends on its material (resistivity), length, and cross-sectional area. When a wire is stretched, its length increases, and its cross-sectional area decreases, while its volume remains constant. This change in dimensions affects the resistance. The current in the circuit is inversely proportional to the resistance (assuming constant voltage).

– Resistance R = $\rho \frac{L}{A}$, where $\rho$ is resistivity, L is length, and A is cross-sectional area.
– Volume of the wire V = A × L. When stretched, the volume remains constant: $A’L’ = AL$.
– Ohm’s Law: Current I = Voltage V / Resistance R.

Let the original length be L and the original cross-sectional area be A. The original resistance is $R = \rho \frac{L}{A}$.
The wire is stretched to a new length $L’ = 2L$.
Since the volume remains constant, $A’L’ = AL$.
$A'(2L) = AL \Rightarrow A’ = \frac{A}{2}$.
The new resistance is $R’ = \rho \frac{L’}{A’} = \rho \frac{2L}{A/2} = \rho \frac{2L \times 2}{A} = 4 \rho \frac{L}{A}$.
So, $R’ = 4R$. The resistance becomes four times the original resistance.
Assuming the voltage V across the circuit element (or the voltage source) is constant:
Original current $I = \frac{V}{R}$.
New current $I’ = \frac{V}{R’} = \frac{V}{4R} = \frac{1}{4} \left(\frac{V}{R}\right) = \frac{1}{4}I$.
The current in the circuit would become one-fourth of its original value.

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