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(B) The electric field $E$ due to an infinite non-conducting sheet is given by $E = \frac{\sigma}{2 \varepsilon_0}$.Using the relation between electri

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$\frac{25}{\pi} 	ext{ mm}$

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(B) The electric field $E$ due to an infinite non-conducting sheet is given by $E = \frac{\sigma}{2 \varepsilon_0}$.Using the relation between electric field and potential difference,$|dV| = |E| dr$,the distance $r$ between two equipotential surfaces with potential difference $\Delta V$ is $r = \frac{\Delta V}{E}$.Substituting $E$,we get $r = \frac{\Delta V \cdot 2 \varepsilon_0}{\sigma} = \frac{\Delta V}{2 \pi \sigma \left( \frac{1}{4 \pi \varepsilon_0} ight)^{-1}} = \frac{\Delta V}{2 \pi \sigma} \cdot \frac{1}{4 \pi \varepsilon_0} \cdot 4 \pi = \frac{\Delta V \cdot 2}{\sigma \cdot (1 / 4 \pi \varepsilon_0) \cdot 4 \pi} = \frac{\Delta V}{2 \pi \sigma (9 	imes 10^9)} 	ext{ (incorrect simplification, using standard form: } r = \frac{\Delta V \cdot 2 \varepsilon_0}{\sigma} = \frac{\Delta V}{2 \pi \sigma (1 / 4 \pi \varepsilon_0)})$.Given $\Delta V = 90 	ext{ V}$,$\sigma = 2 	imes 10^{-7} 	ext{ C/m}^2$,and $\frac{1}{4 \pi \varepsilon_0} = 9 	imes 10^9 	ext{ Nm}^2/	ext{C}^2$.$r = \frac{90 	imes 2 	imes (1 / 4 \pi \varepsilon_0)}{4 \pi 	imes 9 	imes 10^9 	imes \sigma} 	ext{ (simplifying: } r = \frac{\Delta V \cdot 2 \varepsilon_0}{\sigma} = \frac{\Delta V}{2 \pi \sigma (1 / 4 \pi \varepsilon_0)})$.$r = \frac{90}{2 \pi 	imes 2 	imes 10^{-7} 	imes 9 	imes 10^9} = \frac{90}{3600 \pi} 	ext{ m} = \frac{1}{40 \pi} 	ext{ m} = \frac{1000}{40 \pi} 	ext{ mm} = \frac{25}{\pi} 	ext{ mm}$.

An infinite non-conducting sheet has a surface charge density $2 \times 10^{-7} \text{ C/m}^2$ on one side. The distance between two equipotential surfaces whose potential difference is $90 \text{ V}$ is (assume $\frac{1}{4 \pi \varepsilon_0} = 9 \times 10^9 \text{ Nm}^2/\text{C}^2$):

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