A circular coil has 500 turn of wire and its radius is 5 cm. The self inductance of the coil is
25 x 10-3 mH
25 mH
50 x 10-3 H
50 x 10-3 mH
A steady current of 5 A is maintained for 45 min. During this time it deposits 4.572 g of zinc at the cathode of a voltmeter. ECE of zinc is
3.38 × 10-4 g/C
3.397 × 10-4 g/C
3.384 × 10-3 g/C
3.394 × 10-3 g/C
A magnetising field of 1600 A/m produces a magnetic flux 2.4 x10-5 Wb in an iron bar of cross-sectional area 0.2 cm2. The susceptibility of an iron bar will be
1788
1192
596
298
The sun delivers 104 W/m2 of electromagnetic flux to the earth's surface. The total power that is incident on a roof of dimension (10 x 10) m2 will be
104 W
105 W
106 W
107 W
Current in a circuit falls steadily from 2.0 A to 0.0 A in 10 ms. If an average emf of 200 V is induced, then the self-inductance of the circuit is
1 H
2 H
1/2 H
2 H
The polarity of the capacitor in the situation described by Fig.
Plate A and plate B both positive
Plate A negative and plate B positive
Plate A positive and plate B negative
Plate A and plate B both negative
When a given coil is connected to a 200V, 50 Hz AC source, 1 A current flows in the circuit. The inductive reactance of the coil used is
The magnetic flux through a circuit of resistance R changes by Δ in times Δt. Then, the-total amount of electric charge that passes in any point in the circuit during this time 'Δt' will be
A.
From Faraday's law of EMI, emf induced in the circuit is
If R is the resistance in the circuit, then
So, the total amount of charge passing through the circuit is