Question:
The electric field due to an infinitely long thin wire with linear charge density \( \lambda \) at a radial distance \( r \) is proportional to:
The electric field due to an infinitely long thin wire with linear charge density \( \lambda \) at a radial distance \( r \) is proportional to:
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Gauss's Law simplifies the calculation of electric fields when the symmetry of the charge distribution is high.
Updated On: Mar 10, 2025
- \(\frac{\lambda^2}{r}\)
- \(\frac{\lambda}{r}\)
- \(\frac{\lambda}{r^2}\)
- \(\frac{\sqrt{\lambda}}{\sqrt{r}}\)
- \(\frac{\lambda}{\sqrt{r}}\)
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The Correct Option is B
Solution and Explanation
The electric field \( E \) due to an infinitely long thin wire is given by Gauss's Law, which results in:
\[
E = \frac{\lambda}{2\pi \epsilon_0 r}
\]
Hence, the electric field is proportional to \(\frac{\lambda}{r}\).
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