An electric bulb is rated 220 volt − 100 watt. The power consumed by it when operated on 110 volt will be
50 watt
75 watt
40 watt
40 watt
An inductor (L = 100 mH), a resistor (R = 100 Ω) and a battery (E = 100 V) are initially connected in series as shown in the figure. After a long time the battery is disconnected after short-circuiting the points A and B. The current in the circuit 1 mm after the circuit is
1 A
1/e A
e A
e A
A material ‘B’ has twice the specific resistance of ‘A’. A circular wire made of ‘B’ has twice the diameter of a wire made of ‘A’. Then for the two wires to have the same resistance, the ratio AA /AB of their respective lengths must be
2
1
1/4
1/4
Two thin, long parallel wires separated by a distance ‘d’ carry a current of ‘i’ A in the same direction. They will
attract each other with a force of µ0i2/(2πd)
repel each other with a force of µ0i2/(2πd)
attract each other with a force of µ0i2(2πd2 )
attract each other with a force of µ0i2(2πd2 )
An energy source will supply a constant current into the load of its internal resistance is
equal to the resistance of the load.
very large as compared to the load resistance.
zero
zero
The resistance of the series combination of two resistances is S. When they are joined in parallel through total resistance is P. If S = nP, then the minimum possible value of n is
4
3
2
2
An electric current is passed through a circuit containing two wires of the same material, connected in parallel. If the length and radii of the wires are in the ratio of 4/3 and 2/3, then the ratio of the currents passing through the wire will be
3
1/3
8/9
8/9
In a metre bridge experiment null point is obtained at 20 cm from one end of the wire when resistance X is balanced against another resistance Y. If X < Y, then where will be the new position of the null point from the same end, if one decides to balance a resistance of 4X against Y?
50 cm
80 cm
40 cm
40 cm
A.
50 cm
We have from meter bridge experiment,
The electrochemical equivalent of a metal is 3.3 × 10−7 kg per coulomb. The mass of the metal liberated at the cathode when a 3 A current is passed for 2 seconds will be
19.8 × 10−7 kg
9.9 × 10−7 kg
6.6 × 10−7 kg
6.6 × 10−7 kg