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A vertical copper disc of diameter 20cm ...

A vertical copper disc of diameter `20cm` makes `10` revolution per second about a horizontal axis passing through its centre. A uniforjm magnetic field `10^(-2)T` acts perpendicular to the plane of the disc. Calculate the potential defference between its centre and rim in volts.

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Dics is equivalent to a length `r` . Divide dics into rods, each rod i sreplaced by a battery and these batteries are in parallel.
`r=(20)/(2)=10cm=0.1m`
`omega=10xx2pi=20pirad/sec`
`B=10^(-2)T`
`e=(1)/(2)Bomegar^(2)`
`=(1)/(2)(10^(-2))(20pi)(0.1)^(2)`
`V_(0)-V_(A)=3.14xx10^(-3)V`
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CP SINGH-ELECTROMAGNETIC INDUCTION-EXERCISES
  1. A vertical copper disc of diameter 20cm makes 10 revolution per second...

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  2. The direction of induced current in the loop

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  3. A current-carrying wire is placed, below a coil in its plane, with cur...

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  4. A wire is bent to form the double loop shown in figure. There is a uni...

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  5. Two different wire loops are concentric and lie in the same plane. The...

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  6. A bar magnet is moved along the axis of a copper ring placed far away ...

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  7. Consider the situation shown in . if the switch is closed and after so...

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  8. Solve the previous question if the closed loop is completely enclosed ...

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  9. As shown in the figure, P and Q are two coaxial conducting loops separ...

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  10. shows a horizontal solenoid connected to a battery and a switch. A cop...

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  11. An aluminium ring B faces an electromagnet A. The current I through A ...

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  12. A conduting ring R is placed on the axis of a bar magnet M . The plane...

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  13. Two circular loops of equal radii are placed coaxially at some separat...

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  14. Two identical coaxial circular loops carry a current i each circulatin...

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  15. Two circular coil P and Q are arranged coaxially as shown. The sign co...

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  16. Two circular loops P and Q are placed with their planes paraller to ea...

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  17. A small, conducting circular loop is placed inside a long solenoid car...

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  18. A small magnet M is allowed to fall through a fixed horizontal conduct...

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  19. In the previous question, the directions of the current flowing in the...

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  20. A copper ring having a cut such as not to from a complete loop is held...

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  21. Lenz's law is consequence of the law of conservation of

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