MHT CET · Physics · Electrostatics
A conducting sphere of radius \(0.1 \mathrm{~m}\) has uniform charge dénsity \(1.8 \mu \mathrm{C} / \mathrm{m}^2\) on its surface. The electric field in free space at radial distance \(0.2 \mathrm{~m}\) from \(\alpha\) point on the surface is ( \(\varepsilon_0=\) permittivity of free space)
- A \(\frac{6 \times 10^{-6}}{\varepsilon_0} \mathrm{Vm}^{-1}\)
- B \(\frac{6 \times 10^{-8}}{\varepsilon_0} \mathrm{Vm}^{-1}\)
- C \(\frac{2 \times 10^{-7}}{\varepsilon_0} \mathrm{Vm}^{-1}\)
- D \(\frac{1 \times 10^{-7}}{\varepsilon_0} \mathrm{Vm}^{-1}\)
Answer & Solution
Correct Answer
(C) \(\frac{2 \times 10^{-7}}{\varepsilon_0} \mathrm{Vm}^{-1}\)
Step-by-step Solution
Detailed explanation
\(\begin{aligned} \mathrm{q} & =\sigma \mathrm{A}=\sigma \pi \mathrm{r}^2 \\ \mathrm{E} & =\frac{1}{4 \pi \varepsilon_0} \times \frac{\mathrm{q}}{\mathrm{d}^2}=\frac{1}{4 \pi \varepsilon_0} \times \frac{\sigma \pi \mathrm{r}^2}{\mathrm{~d}^2} \\ & =\frac{1}{4 \pi \varepsilon_0} \times \frac{1.8 \times 10^{-6} \times \pi \times 10^{-2}}{4 \times 10^{-2}} \\ \therefore \quad \mathrm{E} & =\frac{1.125 \times 10^{-7}}{\varepsilon_0} \approx \frac{2 \times 10^{-7}}{\varepsilon_0} \mathrm{Vm}^{-1}\end{aligned}\)
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