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Question
Solve the following example.
Two tungsten bulbs of wattage 100 W and 60 W power work on 220 V potential difference. If they are connected in parallel, how much current will flow in the main conductor?
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Solution 1
Power of first bulb, P1 = 100 W
Power of second bulb, P2 = 60 W
Now,
Resistance of first bulb, `R_1 = (V^2)/(P_1)=(220xx220)/100 = 484 Ω`
When the bulbs are connected in parallel, their equivalent resistance is
Solution 2
Potential remains same in the resistors when they are connected in the parallel.
∴ Potential in both the bulbs will be same.
Now,
For First Tungsten Bulb,
Power = 100 W.
Potential = 220 V.
∵ Power = Potential × Current.
∴ Current = 100/220
⇒ Current = 0.45 A.
For second Tungsten bulbs,
Power = 60 W.
Potential = 220 V.
∴ Current = 60/220
= 0.27 A.
Now, Total current flowing = Current in 1st bulb + Current in 2nd bulb.
= 0.45 + 0.27
= 0.72 A.
Hence, the total current flowing in the main conductor is 0.72 A.
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