NEET-XII-Physics
38: Electromagnetic Induction
- #13-aFind the induced emf in the frame at the instant when the angles at these corners reduce to 60°. (b) Find the induced current in the frame at this instant if the total resistance of the frame is R. (c) Find the total charge which flows through a side of the frame by the time the square is deformed into a straight line.
FigureAns : The effective length of each side is the length that is perpendicular to the velocity of the corners.
Thus, the effective length of each side is a sin θ.
Net effective length for four sides = 4 × `` \frac{a}{2}`` = 2a
∴ Induced emf = Bvl = 2Bau (b) Current in the frame is given by
i `` =\frac{e}{R}=\frac{2auB}{R}`` (c) Total charge q, which flows through the sides of the frame, is given by
`` q=\frac{∆\varphi }{R}``
Here,
ΔΦ = Change in the flux
R = Resistance of the coil
`` \therefore q=\frac{∆\varphi }{R}``
`` =\frac{B({a}^{2}-0)}{R}``
`` =\frac{B{a}^{2}}{R}``
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- #13-bFind the induced current in the frame at this instant if the total resistance of the frame is R.Ans : Current in the frame is given by
i `` =\frac{e}{R}=\frac{2auB}{R}``
- #13-cFind the total charge which flows through a side of the frame by the time the square is deformed into a straight line.
FigureAns : Total charge q, which flows through the sides of the frame, is given by
`` q=\frac{∆\varphi }{R}``
Here,
ΔΦ = Change in the flux
R = Resistance of the coil
`` \therefore q=\frac{∆\varphi }{R}``
`` =\frac{B({a}^{2}-0)}{R}``
`` =\frac{B{a}^{2}}{R}``
Page No 307: