WBJEE · Physics · Current Electricity
A galvanometer can be converted to a voltmeter of full-scale deflection \(\mathrm{V}_{0}\) by connecting a series resistance \(\mathrm{R}_{1}\) and can be converted to an ammeter of full-scale deflection \(I_{0}\) by connecting a shunt resistance \(\mathrm{R}_{2}\). What is the current flowing through the galvanometer at its full-scale deflection?
- A \(\frac{\mathrm{V}_{0}-\mathrm{I}_{0} \mathrm{R}_{2}}{\mathrm{R}_{1}-\mathrm{R}_{2}}\)
- B \(\frac{\mathrm{V}_{0}+\mathrm{I}_{0} \mathrm{R}_{2}}{\mathrm{R}_{1}+\mathrm{R}_{2}}\)
- C \(\frac{\mathrm{V}_{0}-\mathrm{I}_{0} \mathrm{R}_{2}}{\mathrm{R}_{2}-\mathrm{R}_{1}}\)
- D \(\frac{V_{0}+l_{0} R_{1}}{R_{1}+R_{2}}\)
Answer & Solution
Correct Answer
(A) \(\frac{\mathrm{V}_{0}-\mathrm{I}_{0} \mathrm{R}_{2}}{\mathrm{R}_{1}-\mathrm{R}_{2}}\)
Step-by-step Solution
Detailed explanation
Hint: \(R_{1}=\frac{V_{0}}{I_{g}}-G_{\ldots} \ldots \ldots . .(1)\) \(\mathrm{R}_{2}=\frac{\mathrm{I}_{\mathrm{g}} \mathrm{G}}{\mathrm{I}_{0}-\mathrm{I}_{\mathrm{g}}} \ldots \ldots \ldots . .(2)\) Eliminating G we get \(I_{g}=\frac{V_{0}-I_{0} R_{2}}{R_{1}-R_{2}}\)
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