Important Questions of Electromagnetic Induction Physics | Zigya

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31.

The magnetic flux linked with the coil varies with time as ϕ = 3t2 + 4t + 9. The magnitude of the induced emf at 2 s is

  • 9 V

  • 16 V

  • 3 V

  • 4 V


32.

Two thin metallic strips, carrying current in the direction shown, cross each other perpendicularly without touching but being close to each other, as shown in the figure. The regions which contain some points of zero magnetic induction are

              

  • I and II

  • I and III 

  • I and IV

  • II and III


33.

The coefficient of mutual inductance between the primary and secondary of the coil is 5 H. A current of 10 A is cut off in 0.5 s. The induced emf is 

  • 1 V

  • 10 V

  • 5 V

  • 100 V


34.

Two circuits have mutual inductance of 0.1 H. What average emf is induced in one circuit when the current in the other circuit changes from 0 to 20 A in 0.02 s ?

  • 240 V

  • 230 V

  • 100 V

  • 300 V


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35.

The magnetic flux linked with a coil at any instant 't' is given by ϕ = 5t3 - 100t + 300 the emf induced in the coil at t = 2 second is

  • 40 V

  • − 40 V

  • 300 V

  • 140 V


36.

The induction coil works on the principle of

  • self-induction

  • mutual induction

  • Ampere's rule

  • Flemmg's right hand rule


37.

The square root of the product of inductance and capacitance has the dimension of

  • length

  • mass

  • time

  • no dimension


38.

Current in a coil changes from 4 A to zero in 0.1 s and the emf induced is 100 V. The self inductance of the coil is

  • 0.25 H

  • 0.4 H

  • 2.5 H

  • 4 H


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39.

The energy stored in an inductor of self inductance L henry carrying a current of I ampere is

  • 12 L2I

  • 12 LI2

  • LI2

  • L2I


40.

In the loop shown, the magnetic induction at the point O is

           

  • zero

  • μ0I8 R1 - R2R1R2

  • μ0I8 R1 + R2R1R2

  • μ0I8 R1R2R1 + R2


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