The magnitude of the induced e.m.f. in a conductor depends on the

Electromagnetic induction
The magnitude of the induced e.m.f. in a conductor depends on the

Amount of flux linkages

Rate of change of flux-linkages

Amount of flux cut

Flux density of the magnetic field

Amount of flux linkages

Rate of change of flux-linkages

Amount of flux cut

Flux density of the magnetic field

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

The laminations are insulated from each other

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

The laminations are stacked vertically

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

The laminations are insulated from each other

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

The laminations are stacked vertically

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

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Electromagnetic induction
The polarity of the induced voltage can be determined by using the left-hand generator rule.

No

Yes

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

Tend to decrease the amount of current

Aid the increasing current

Aid the applied voltage

Produce current opposite to the increasing current

Tend to decrease the amount of current

Aid the increasing current

Aid the applied voltage

Produce current opposite to the increasing current

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Electromagnetic induction
Higher the self-inductance of a coil,

Lower the e.m.f. induced

Greater the flux produced by it

Longer the delay in establishing steady current through it

Lesser its weber-turns

Lower the e.m.f. induced

Greater the flux produced by it

Longer the delay in establishing steady current through it

Lesser its weber-turns

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Electromagnetic induction
A 500 turns solenoid develops an average induced voltage of 60 V. Over what time interval must a flux change of 0.06 Wb occur to produce such a voltage?

0.2 s

0.1 s

None of the listed here

0.5 s

0.2 s

0.1 s

None of the listed here

0.5 s

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Electromagnetic induction

Electromagnetic induction The magnitude of the induced e.m.f. in a conductor depends on the

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

Electromagnetic induction The polarity of the induced voltage can be determined by using the left-hand generator rule.

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

Electromagnetic induction Higher the self-inductance of a coil,

Electromagnetic induction A 500 turns solenoid develops an average induced voltage of 60 V. Over what time interval must a flux change of 0.06 Wb occur to produce such a voltage?

Electromagnetic induction
The magnitude of the induced e.m.f. in a conductor depends on the

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

Electromagnetic induction
The polarity of the induced voltage can be determined by using the left-hand generator rule.

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

Electromagnetic induction
Higher the self-inductance of a coil,

Electromagnetic induction
A 500 turns solenoid develops an average induced voltage of 60 V. Over what time interval must a flux change of 0.06 Wb occur to produce such a voltage?