Two bulbs rated 200 W, 220V and 100 W, 220V, are connected in series, combination is connected to 220 V supply. Power consumed by the circuit is
8O W
67 W
76 W
65 W
In a potentiometer experiment, the balancing with a cell is at 240 cm. On shunting the cell with a resistance of 2 Ω the balancing length becomes 120 cm. The internal resistance of the cell is
0.5 Ω
1 Ω
2 Ω
4 Ω
The total current supplied to the circuit by the battery is
1 A
2 A
4 A
5 A
C.
4 A
Rnet = 1.5 Ω
By Ohm's law current supplied
I = V / R = 6 / 1.5 = 4 A
The current in a wire varies with time as I = 5t2 + 2t, where I is in ampere and t is in second. The quantity of charge which has to be passed through a cross-section of wire during the times t = 4 s to t = 6 s is
220 C
340 C
273.34 C
280 C
Three resistances of 2 Ω, 3 Ω and 6 Ω are connected in parallel and the combination is connected in series with 2 V battery having internal resistance of 1 Ω . The current in the battery is
1 A
3 A
2 A
4 A
An electric cable of copper has just one wire of radius 9 mm with resistance 5 Ω . This single copper wire of cable is replaced by 4 different well insulated copper wires each of radius 3 mm. The total resistance of the cable now will be
22.5 Ω
45 Ω
9 Ω
11.25 Ω
A rise of temperature 5°C is observed in a conductor by passing a current. If the current is doubled the rise in temperature will be
10°C
20°C
5°C
25°C
The current density varies with radial distance r as J =ar2 (where, a is a constant) in a cylindrical wire of radius R. The current passing through the wire between radial distance and is
A thermister is dipped in a water bath. As the temperature increases the current in the thermistor also increases. This is due to decrease in
resistivity
conductivity
reactance
capacitance
In an AC circuit, voltage and current are given by V = 50 sin (lO0 t) V and I = 50 sin A. The power dissipiated in the circuit is
125 W
625 W
1250 W
100 W