Question:medium

The value of \(R\) in the given circuit, so that there is no current flow in the \(10\,\Omega\) resistor, will be

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If no current flows through the central branch of a bridge network, immediately apply the Wheatstone bridge balance condition: \[ \frac{R_1}{R_2}=\frac{R_3}{R_4} \] This avoids lengthy circuit calculations.
Updated On: Jun 11, 2026
  • \(2\,\Omega\)
  • \(4\,\Omega\)
  • \(8\,\Omega\)
  • \(12\,\Omega\)
Show Solution

The Correct Option is D

Solution and Explanation


Step 1:
Identify the four arms of the bridge. Upper left arm: \[ 12\,\Omega \] Upper right arm: \[ 15\,\Omega \] Lower right arm: \[ 5\,\Omega \] Lower left arm: \[ 6\,\Omega \parallel R \]

Step 2:
Apply the bridge balance condition. \[ \frac{12}{15} = \frac{6\parallel R}{5} \] \[ 6\parallel R = \frac{12}{15}\times 5 = 4\,\Omega \]

Step 3:
Calculate \(R\). For parallel combination, \[ \frac{6R}{6+R}=4 \] \[ 6R=24+4R \] \[ 2R=24 \] \[ R=12\,\Omega \]

Step 4:
State the answer. \[ {R=12\,\Omega} \] Hence, the correct option is \[ {(D)} \]
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