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A bar magnet is freel falling along the ...

A bar magnet is freel falling along the axis of a circular loop as shown in Figure. State whether its acceleration a is equal to greater than or less than the acceleration due to gravity g.

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`a lt g` .Because according to Lenz's law, whatever may be the direction of induced current it wil oppose the cause.

Here the cause is the free fall of magnet and so the induced current will oppose it and the acceleration of magnet will be less than the acceleration due to gravity `g`. This can also be explained in a different manner. When the magnet falls downwards with its north pole downwards.
The magnetic field lines passing through the coil in the downward direction increase. Since, the induced current opposes this the upper side of the coil will become north pole, so that field lines of coil's magnetic field are upwards. Now, like poles repel each other. Hence `a ltg`.
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DC PANDEY ENGLISH-ELECTROMAGNETIC INDUCTION-Example
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  4. A bar magnet is brought near a solenoid as shown in figure. Will the s...

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  8. A rectangular loop is placed adjacent toa current carrying straight wi...

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  9. Two loops are facing each other as shown in Figure. State whether the ...

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  10. Two parallel rails with negligible resistance are 10.0 cm apart. The a...

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  12. The inductor shown in figure has inducance 0.54 H and carries a curren...

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  13. In the circuit diagram shown in Figure, R=10 Omega, L=l5H, E=20v, i=2A...

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  14. a. Calculate the inductance of an air core solenoid containing 300 tur...

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  15. What inductance would be needed to store 1.0 kWh of energy in a coil c...

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  16. a. What is the magnetic flux through one turn of a solenoid of self in...

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  17. A 10 H inductor carries a current of 20A. How much ice at 0^@C could m...

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  18. A straight solenoid has 50 turns per cm in primary and 200 turns in th...

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  19. Two solenoids A and B spaced close to each other and sharing the same ...

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  20. A coil of resistance 20Omega and inductance 0.5H is switched to DC200V...

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