(A) The induced electromotive force $(e)$ in a rotating coil is given by $e = NAB \omega \sin(\omega t)$.The peak value of the induced $EMF$ is $e_0 =

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$\frac{N^2 A^2 B^2 \omega^2}{2 R}$

(A) The induced electromotive force $(e)$ in a rotating coil is given by $e = NAB \omega \sin(\omega t)$.The peak value of the induced $EMF$ is $e_0 = NAB \omega$.The peak current is $i_0 = \frac{e_0}{R} = \frac{NAB \omega}{R}$.The average power dissipated in an $AC$ circuit is given by $P_{av} = \frac{e_0 i_0}{2}$ or $P_{av} = \frac{e_0^2}{2R}$.Substituting the value of $e_0$:$P_{av} = \frac{(NAB \omega)^2}{2R} = \frac{N^2 A^2 B^2 \omega^2}{2R}$.

Class 12 Physics Electromagnetic Induction Dynamic EMI and Periodic EMI

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$A$ circular coil of resistance $R$,area $A$,and number of turns $N$ is rotated about its vertical diameter with angular speed $\omega$ in a uniform magnetic field of magnitude $B$. The average power dissipated in a complete cycle is:

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A
$\frac{N^2 A^2 B^2 \omega^2}{2 R}$
B
$\frac{BNA \omega}{R}$
C
$\frac{N^2 A B}{2 R \omega^2}$
D
$\frac{BA \omega}{2 NR}$

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Electromagnetic Induction

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Dynamic EMI and Periodic EMI

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When a magnet is pushed in and out of a circular coil $C$ connected to a very sensitive galvanometer $G$ as shown in the adjoining diagram with a frequency $\nu$,then

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$A$ coil of area $A$ and $N$ turns is rotating with angular velocity $\omega$ in a uniform magnetic field $\overrightarrow{B}$ about an axis perpendicular to $\vec{B}$. Magnetic flux $\varphi$ and induced emf $\varepsilon$ across it,at an instant when $\overrightarrow{B}$ is parallel to the plane of the coil,are:

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$A$ circular coil of resistance $R$,area $A$,and number of turns $N$ is rotated about its vertical diameter with angular speed $\omega$ in a uniform magnetic field of magnitude $B$. The average power dissipated in a complete cycle is:

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An elliptical loop having resistance $R$,semi-major axis $a$,and semi-minor axis $b$ is placed in a magnetic field as shown in the figure. If the loop is rotated about the $x$-axis with angular frequency $\omega$,the average power loss in the loop due to Joule heating is:

$A$ coil having $1000$ turns and an area of $0.10 \ m^2$ rotates at half a revolution per second and is placed in a uniform magnetic field of $0.01 \ T$ perpendicular to the axis of rotation of the coil. The maximum emf voltage generated in the coil is . . . . . . $V$.

$A$ rectangular coil of $300$ turns has an average area of $25\;cm \times 10\;cm.$ The coil rotates with a speed of $50\;cps$ in a uniform magnetic field of strength $4 \times 10^{-2}\;T$ about an axis perpendicular to the field. The peak value of the induced $e.m.f.$ is (in volt): (in $\pi$)

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