A potentiometer wire of length 10 m and resistance 20 Ω is connected in series with a 15 V battery and an external resistance 40 Ω. A secondary cell of emf E in the secondary circuit is balanced by 240 cm long potentiometer wire. The emf E of the cell is
2.4 V
1.2 V
2.0 V
3 V
In the following circuit, the current flowing through 1 kΩ resistor is
0 mA
5 mA
10 mA
15 mA
B.
5 mA
Voltage across zener diode will always be constant.
V = IR
∴ 5 = I × 103
or I =
or I = 5 × 10-3
or I = 5 mA
The drift velocity of the electrons in a copper wire of length 2 m under the application of a potential difference of 220 V is 0.5 ms-1. Their mobility (in m2V-1s-1)
2.5 × 10-3
2.5 × 10-2
5 × 102
5 × 10-3
When two resistances R1 and R2 are connected in series, they consume 12 W power. When they are connected in parallel, they consume 50 W power. What the ratio of the powers of R1 and R2 ?
1/4
4
3/2
3
In the circuit shown, if the resistance 5 Ω develops a heat of 42 J per second, heat developed in 2 Ω must be about (in Js-1)
25
20
30
35
When a Daniel cell is connected in the secondary circuit of a potentiometer, the balancing length is found to be 540 cm. If the balancing length becomes 500 cm when the cell is short circuited with 1 Ω, the internal of the cell is
0.08 Ω
0.04 Ω
1.0 Ω
1.08 Ω
A resistor 30 Ω, inductor of reactance 10 Ω and capacitor of reactance 10 Ω are connected in series to an AC voltage source . The current in the circuit is
10 A
The resistance of a wire at room temperature 30˜C is found to be 10 Ω. Now to increase the resistance by 10%, the temperature of the wire must be [The temperature coefficient of resistance of the material of the wire is 0.002/°C]
36°C
83°C
63°C
33°C