A conducting loop in the shape of a right-ang | vedclass

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(A) Let the current in the infinitely long wire be $I$. The magnetic field at a distance $x$ from the wire is $B = \frac{\mu_0 I}{2 \pi x}$.Consider a

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(A) Let the current in the infinitely long wire be $I$. The magnetic field at a distance $x$ from the wire is $B = \frac{\mu_0 I}{2 \pi x}$.Consider a strip of width $dx$ at distance $x$ from the wire. The length of this strip is $2x$ (since the triangle is right-angled isosceles with height $h = 10 \ cm = 0.1 \ m$).The flux $d\phi$ through this strip is $d\phi = B \cdot dA = \left(\frac{\mu_0 I}{2 \pi x}ight) (2x \ dx) = \frac{\mu_0 I}{\pi} dx$.The total flux $\phi$ through the loop is $\phi = \int_0^{0.1} \frac{\mu_0 I}{\pi} dx = \frac{\mu_0 I}{\pi} [x]_0^{0.1} = \frac{0.1 \mu_0 I}{\pi} = \frac{\mu_0 I}{10 \pi}$.Thus,the mutual inductance $M = \frac{\phi}{I} = \frac{\mu_0}{10 \pi}$.The induced emf in the wire is $\varepsilon = M \frac{dI}{dt} = \left(\frac{\mu_0}{10 \pi}ight) 	imes 10 = \frac{\mu_0}{\pi} \ V$. Statement $(A)$ is correct.By Lenz's law,the induced current in the wire opposes the change in flux. Since the current in the loop increases,the flux increases. The induced current in the wire will flow in a direction to create a magnetic field opposing the loop's field,resulting in a repulsive force. Statement $(D)$ is correct. Statement $(C)$ is incorrect as the induced current direction is determined by Lenz's law relative to the total flux change,not just the hypotenuse.

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