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A short bar magnet is pulled rapidly thr...

A short bar magnet is pulled rapidly through a conductind cooil along its axis with uniform velocity, with its north pole entering the coil first. Sketch vartition of (a) flux, (b) induced current and (c) power dissipated in coil with time.

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Magnetic field due to magnet
`B=(mu_(0))/(4pi).(2M)/(x^(3))`
`Bprop(1)/(x^(3)` , `phiprop(1)/(x^(3))`
Flux increases, reaching to a maximum value and then decreases.
Induced current `v//s` time `t` :
When flux increases, north pole is formed, current is anticlockwise.
When flux decreases, south pole is formed, current is clockwise. Taking anticlockwise current as positive.


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CP SINGH-ELECTROMAGNETIC INDUCTION-EXERCISES
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  2. The direction of induced current in the loop

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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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