The magnetic flux linked with a coil at any instant t is given by

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 Multiple Choice QuestionsMultiple Choice Questions

131.

The magnetic flux in a closed circuit of resistance 10 Ω varies with time t (in second) as π = (4t2 − 5t + 1)Wb. The magnitude of induced current at t = 0.20 s is

  • 0.12 A

  • 0.38 A

  • 0.34 A

  • 0.12 A


132.

The self-inductance of the motor of an electric fan is 10H. In order to impart maximum power at 50 Hz, it should be
connected to a capacitance of

  • 4µF

  • 8µF

  • 1µF

  • 2µF


133.

Three solenoid coils of same dimensions, same number of turns and same number of layers of windings are taken. Coil 1 with inductance L1 was wound using a wire of resistance 11 Ω /m, coil 2 with inductance L2 was wound using the similar wire but the direction of winding was reversed in each layer, coil 3 with inductance L3 was wound using a superconducting wire. The self inductance of the coils L1 , L2 and L3 are

  • L1 = L2 = L3

  • L1 = L2 , L3 = 0

  • L1 = L3 , L2 = 0

  • L1 > L2 > L3


134.

A current I= 5.0 A flows along a thin wire shaped as shown in given figure. The radius of the curved part of the wire is equal to R = 120 mm and the angle 2ϕ = 90°. Find the magnetic induction of the field at point O.

   

  • 4.2 × 10-4 T

  • 8.8 × 10-5 T

  • 2.8 × 10-4 T

  • 4.2 × 10-3 T


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135.

A small piece of metal wire is dragged across the gap between the poles of a magnet in 0.4 s. If change in magnetic flux in the wire is 8 x 10-4 Wb, then emf induced in the wire is

  • 8 × 10-3 V

  • 6 × 10-3 V

  • 4 × 10-3 V

  • 2 × 10-3 V


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136.

The magnetic flux linked with a coil at any instant t is given by the equation : ϕ = 5t3 − 100t + 300. The magnitude of emf induced in the coil after 3 s is

  • 10 V

  • 20 V

  • 35 V

  • 70 V


C.

35 V

Given, ϕ = - 100 t + 300       e = - dt              = -ddt 5 t3 - 100 t + 300               = - 15 t2 - 100 + 0              = - 15 t2 + 100 et = - 15 32 + 100         = - 15 × 9 + 100         = - 35 V

Minus sign signifies the Lenz's Law.


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137.

In 0.1 s, the current in a coil increases from 1 A to 1.5 A. If inductance of coil is 60 mH, then induced current in external resistance of 3Ω will be

  • 1 A

  • 0.5 A

  • 0.2 A

  • 0.1 A


138.

If a coil of 40 turns and area 4.0 cm2 is suddenly removed from a magnetic field, it is observed that a charge of 2.0 x 10-4 C flows into the coil. If the resistance of the coil is 80 Ω, the magnetic flux density in Wb/m2 is

  • 0.5

  • 1.0

  • 1.5

  • 2.0


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139.

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

  • 9 V

  • 16 V

  • 3 V

  • 4 V


140.

A coil having an inductance of 0.5 H carries a current which is uniformly varying from 0 to 10 A in 2s. The emf (in volts) generated in the coil is

  • 10

  • 5

  • 2.5

  • 1.25


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