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प्रश्न
The figure below shows two batteries, E1 and E2, having emfs of 18V and 10V and internal resistances of 1 Ω and 2 Ω, respectively. W1, W2 and W3 are uniform metallic wires AC, FD and BE having resistances of 8 Ω, 6 Ω and 10 Ω respectively. B and E are midpoints of the wires W1 and W2. Using Kirchhoff's laws of electrical circuits, calculate the current flowing in the wire W3:
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उत्तर
Since B and E are the mid-points of AC and FD respectively, so resistance between AB, BC, DE and EF will be 4 Ω, 4 Ω, 3 Ω and 3 Ω respectively as shown in the diagram.
Using Kirchhoff's law in the closed-loop ABEFA, we have:
4 I1 + 10 I1 + 10 I2 + 3 I1 + 1 I1 = 18
18 I1 + 10 I2 = 18
9 I1 + 5 I2 = 9 ...(i)
For the closed-loop BEDCB, we have.
4 I2 + 10 I1 +10 I2 + 3 I2 + 2I2 = 10
10 I1 + 19 I2 = 10 ...(ii)
Solving equation (i) and (ii),
9 I1 + 5 I2 = 9 ...(i) × 10
10 I1 + 19 I2 = 10 ...(ii) × 9
90 I1 + 50 I2 = 90
90 I1 + 171 I2 = 90
(-) (-) (-)
`=> -121 I_2 = 0`
`=>` I2 = 0
Putting I2 = 0 in equation (i),
9 I1 + 5 × 0 = 9
9 I1 = 9 or I1 = 1A
∴ I1 = 1A, I2 = 0
and I3 = I1 + I2
= 1A
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