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(C) The magnetic field $B$ at the center of the large loop of radius $b$ carrying current $I$ is given by $B = \frac{\mu_{0} I}{2 b}$.Since the smalle

Vedclass · Accepted Answer

$\frac{\pi a^{2} \mu_{0} I}{2 b} \omega \sin (\omega t)$

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(C) The magnetic field $B$ at the center of the large loop of radius $b$ carrying current $I$ is given by $B = \frac{\mu_{0} I}{2 b}$.Since the smaller loop of radius $a$ is very small,we assume the magnetic field is uniform over its area $A = \pi a^{2}$.The magnetic flux $\phi$ through the smaller loop at time $t$ is $\phi = B A \cos(	heta)$,where $	heta = \omega t$ is the angle between the area vector of the small loop and the magnetic field.$\phi = \left( \frac{\mu_{0} I}{2 b} ight) (\pi a^{2}) \cos(\omega t)$.According to Faraday's law,the induced emf $\varepsilon$ is $\varepsilon = -\frac{d\phi}{dt}$.$\varepsilon = -\frac{d}{dt} \left[ \frac{\mu_{0} I \pi a^{2}}{2 b} \cos(\omega t) ight]$.$\varepsilon = -\frac{\mu_{0} I \pi a^{2}}{2 b} (-\omega \sin(\omega t)) = \frac{\pi a^{2} \mu_{0} I}{2 b} \omega \sin(\omega t)$.

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