(A) The equation of motion for the wire is given by Newton's second law:$mg - iBl = ma$ .........$(i)$The motional electromotive force $(EMF)$ induce

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(A) The equation of motion for the wire is given by Newton's second law:$mg - iBl = ma$ .........$(i)$The motional electromotive force $(EMF)$ induced in the wire moving with velocity $v$ is $\varepsilon = Blv$. This $EMF$ charges the capacitor $C$,so the potential difference across the capacitor is $V = \varepsilon = Blv$.The charge on the capacitor is $q = CV = CBlv$.The current $i$ in the circuit is the rate of change of charge:$i = \frac{dq}{dt} = CBl \frac{dv}{dt} = CBl a$ .........$(ii)$Substituting equation $(ii)$ into equation $(i)$:$mg - (CBla)Bl = ma$$mg - CB^2l^2a = ma$$mg = a(m + CB^2l^2)$$a = \frac{mg}{m + CB^2l^2}$

Class 12 Physics Electromagnetic Induction Motional EMI (Induced Parameter)

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$A$ wire of mass $m$ and length $l$ can slide freely on a pair of smooth,vertical rails (figure). $A$ magnetic field $B$ exists in the region in the direction perpendicular to the plane of the rails. The rails are connected at the top end by a capacitor of capacitance $C$. The acceleration of the wire,neglecting any electric resistance,is:

A
$\frac{mg}{m + CB^2l^2}$
B
$\frac{2mg}{m + CB^2l^2}$
C
$\frac{mg}{CB^2l^2}$
D
$\frac{mg}{2(m + CB^2l^2)}$

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Electromagnetic Induction

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Motional EMI (Induced Parameter)

$A$ coil of mean area $500 \ cm^2$ and having $1000$ turns is held with its plane perpendicular to a uniform magnetic field of $0.4 \ G$. If the coil is turned through $180^{\circ}$ in $\frac{1}{10} \ s$,then the average induced emf is $(1 \ G = 10^{-4} \ T)$. (in $V$)

MediumAP EAMCET 2019

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$A$ square loop of area $25\,cm^2$ has a resistance of $10\,\Omega$. The loop is placed in a uniform magnetic field of magnitude $40.0\,T$. The plane of the loop is perpendicular to the magnetic field. The work done in pulling the loop out of the magnetic field slowly and uniformly in $1.0\,s$ will be $..........\times 10^{-3}\,J$.

DifficultJEE MAIN 2023

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$A$ conducting rod $AC$ of length $4l$ is rotated about a point $O$ in a uniform magnetic field $\vec{B}$ directed into the paper. $AO = l$ and $OC = 3l$. Then which of the following is incorrect?

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$A$ wire loop enclosing a semi-circle of radius $R$ is located on the boundary of a uniform magnetic field of induction $\vec{B}$. At time $t=0$,the loop is set into rotation with angular velocity $\omega$ about its axis $0$,coinciding with a line of vector $\vec{B}$ on the boundary as shown in the figure. The emf induced in the loop is

MediumTS EAMCET 2018

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$A$ conducting rod of length $L = 0.1 \, m$ is moving with a uniform speed $v = 0.2 \, m/s$ on conducting rails in a magnetic field $B = 0.5 \, T$ as shown. On one side,the end of the rails is connected to a capacitor of capacitance $C = 20 \, \mu F$. Then the charges on the capacitor plates $A$ and $B$ are:

Medium

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$A$ coil of mean area $500 \ cm^2$ and having $1000$ turns is held with its plane perpendicular to a uniform magnetic field of $0.4 \ G$. If the coil is turned through $180^{\circ}$ in $\frac{1}{10} \ s$,then the average induced emf is $(1 \ G = 10^{-4} \ T)$. (in $V$)

$A$ conducting rod $AC$ of length $4l$ is rotated about a point $O$ in a uniform magnetic field $\vec{B}$ directed into the paper. $AO = l$ and $OC = 3l$. Then which of the following is incorrect?

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