A coil and a bulb are connected in series with a dc source, a soft iron core is then inserted in the coil. Then
(1) Intensity of the bulb remains the same
(2) Intensity of the bulb decreases
(3) Intensity of the bulb increases
(4) The bulb ceases to glow
The inductance of a coil is 60μH. A current in this coil increases from 1.0 A to 1.5 A in 0.1 second. The magnitude of the induced e.m.f. is
(1) 60 × 10–6 V
(2) 300 × 10–4 V
(3) 30 × 10–4 V
(4) 3 × 10–4 V
A coil has an inductance of 2.5 H and a resistance of 0.5 r. If the coil is suddenly connected across a 6.0 volt battery, then the time required for the current to rise 0.63 of its final value is
(1) 3.5 sec
(2) 4.0 sec
(3) 4.5 sec
(4) 5.0 sec
If a current of 10 A flows in one second through a coil, and the induced e.m.f. is 10 V, then the self-inductance of the coil is
(1)
(2)
(3)
(4) 1 H
In the figure magnetic energy stored in the coil is:
1. | Zero | 2. | Infinite |
3. | \(25\) joules | 4. | None of the above |
An electric motor operating on a 60 V dc supply draws a current of 10 A. If the efficiency of the motor is 50%, the resistance of its winding is
(1) 3Ω
(2) 6Ω
(3) 15Ω
(4) 30Ω
Two conducting circular loops of radii R1 and R2 are placed in the same plane with their centres coinciding. If R1 >> R2, the mutual inductance M between them will be directly proportional to
(1) R1/R2
(2) R2/R1
(3)
(4)
Consider the situation shown in the figure. The wire AB is sliding on the fixed rails with a constant velocity. If the wire AB is replaced by semicircular wire, the magnitude of the induced current will:
1. | increase. |
2. | remain the same. |
3. | decrease. |
4. | increase or decrease depending on whether the semicircle bulges towards the resistance or away from it. |
1. | directly proportional to \(i\). |
2. | directly proportional to \(R\). |
3. | directly proportional to \(R^2\). |
4. | Zero. |
A small square loop of wire of side l is placed inside a large square loop of wire of side L (L > l). The loop are coplanar and their centre coincide. The mutual inductance of the system is proportional to
(1) l / L
(2) l2 / L
(3) L/l
(4) L2/l