A coil is wound on iron core which carries current I. The self-induced voltage in the coil is not affected by

Electromagnetic induction
A coil is wound on iron core which carries current I. The self-induced voltage in the coil is not affected by

Variation in coil current

Change of number of turns of coil

Variation in voltage to the coil

The resistance of magnetic path

Variation in coil current

Change of number of turns of coil

Variation in voltage to the coil

The resistance of magnetic path

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Electromagnetic induction
In an iron cored coil the iron core is removed so that the coil becomes an air cored coil. The inductance of the coil will

Decreases

None of the listed here

Increases

Remains same

Decreases

None of the listed here

Increases

Remains same

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Electromagnetic induction
A laminated iron core has reduced eddy-current losses because

The laminations are insulated from each other

The laminations are stacked vertically

The magnetic flux is concentrated in the air gap of the core

More wire can be used with less D.C. resistance in coil

The laminations are insulated from each other

The laminations are stacked vertically

The magnetic flux is concentrated in the air gap of the core

More wire can be used with less D.C. resistance in coil

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Electromagnetic induction
If current in a conductor increases then according to Lenz's law self-induced voltage will

Produce current opposite to the increasing current

Aid the applied voltage

Aid the increasing current

Tend to decrease the amount of current

Produce current opposite to the increasing current

Aid the applied voltage

Aid the increasing current

Tend to decrease the amount of current

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Electromagnetic induction
Increasing the field or increasing the current will decrease the force on the conductor.

Yes

No

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Electromagnetic induction
Air-core coils are practically free from

None of the listed here

Both Hysteresis losses & Eddy current losses

Eddy current losses

Hysteresis losses

None of the listed here

Both Hysteresis losses & Eddy current losses

Eddy current losses

Hysteresis losses

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Electromagnetic induction

Electromagnetic induction A coil is wound on iron core which carries current I. The self-induced voltage in the coil is not affected by

Electromagnetic induction In an iron cored coil the iron core is removed so that the coil becomes an air cored coil. The inductance of the coil will

Electromagnetic induction A laminated iron core has reduced eddy-current losses because

Electromagnetic induction If current in a conductor increases then according to Lenz's law self-induced voltage will

Electromagnetic induction Increasing the field or increasing the current will decrease the force on the conductor.

Electromagnetic induction Air-core coils are practically free from

Electromagnetic induction
A coil is wound on iron core which carries current I. The self-induced voltage in the coil is not affected by

Electromagnetic induction
In an iron cored coil the iron core is removed so that the coil becomes an air cored coil. The inductance of the coil will

Electromagnetic induction
A laminated iron core has reduced eddy-current losses because

Electromagnetic induction
If current in a conductor increases then according to Lenz's law self-induced voltage will

Electromagnetic induction
Increasing the field or increasing the current will decrease the force on the conductor.

Electromagnetic induction
Air-core coils are practically free from