The core of a coil has a length of 200 mm. The inductance of coil is 6 mH. If the core length is doubled, all other quantities, remaining the same, the inductance will

Electromagnetic induction
The core of a coil has a length of 200 mm. The inductance of coil is 6 mH. If the core length is doubled, all other quantities, remaining the same, the inductance will

24 mH

12 mH

28 mH

3 mH

24 mH

12 mH

28 mH

3 mH

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Electromagnetic induction
Which of the fpllowing inductor will have the least eddy current losses ?

Iron core

Air core

Laminated iron core

Powdered iron core

Iron core

Air core

Laminated iron core

Powdered iron core

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Electromagnetic induction
Which circuit element(s) will oppose the change in circuit current?

Capacitance only

Resistance only

Inductance only

Inductance and capacitance

Capacitance only

Resistance only

Inductance only

Inductance and capacitance

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Electromagnetic induction
The inductance of a coil will increase under all the following conditions except

When permeability of the core increases

When more area for each turn is provided

When the number of turns of the coil increase

When more length for the same number of turns is provided

When permeability of the core increases

When more area for each turn is provided

When the number of turns of the coil increase

When more length for the same number of turns is provided

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

The laminations are stacked vertically

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

The laminations are insulated from each other

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

The laminations are stacked vertically

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

The laminations are insulated from each other

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

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Electromagnetic induction
Find the force acting on a conductor 3m long carrying a current of 50 amperes at right angles to a magnetic field having a flux density of 0.67 tesla

300 N

1000 N

400 N

100 N

300 N

1000 N

400 N

100 N

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Electromagnetic induction

Electromagnetic induction The core of a coil has a length of 200 mm. The inductance of coil is 6 mH. If the core length is doubled, all other quantities, remaining the same, the inductance will

Electromagnetic induction Which of the fpllowing inductor will have the least eddy current losses ?

Electromagnetic induction Which circuit element(s) will oppose the change in circuit current?

Electromagnetic induction The inductance of a coil will increase under all the following conditions except

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

Electromagnetic induction Find the force acting on a conductor 3m long carrying a current of 50 amperes at right angles to a magnetic field having a flux density of 0.67 tesla

Electromagnetic induction
The core of a coil has a length of 200 mm. The inductance of coil is 6 mH. If the core length is doubled, all other quantities, remaining the same, the inductance will

Electromagnetic induction
Which of the fpllowing inductor will have the least eddy current losses ?

Electromagnetic induction
Which circuit element(s) will oppose the change in circuit current?

Electromagnetic induction
The inductance of a coil will increase under all the following conditions except

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

Electromagnetic induction
Find the force acting on a conductor 3m long carrying a current of 50 amperes at right angles to a magnetic field having a flux density of 0.67 tesla