MHT CET · Physics · Current Electricity
When a galvanometer is shunted by a resistance ' S ', its current capacity increases ' \(n\) ' times. If the same galvanometer is shunted by another resistance \(\mathrm{S}^{\prime}\), its current capacity increases to \(\mathrm{n}^{\prime}\). The value of \(n^{\prime}\) in terms of \(n, S\) and \(S^{\prime}\) is
- A \(\frac{\mathrm{n}+\mathrm{S}}{\mathrm{S}^{\prime}}\)
- B \(\frac{\mathrm{S}(\mathrm{n}-1)-\mathrm{S}^{\prime}}{\mathrm{S}^{\prime}}\)
- C \(\frac{(\mathrm{n}+1) \mathrm{S}}{\mathrm{S}^{\prime}}\)
- D \(\frac{\mathrm{S}(\mathrm{n}-1)+\mathrm{S}^{\prime}}{\mathrm{S}^{\prime}}\)
Answer & Solution
Correct Answer
(D) \(\frac{\mathrm{S}(\mathrm{n}-1)+\mathrm{S}^{\prime}}{\mathrm{S}^{\prime}}\)
Step-by-step Solution
Detailed explanation
From the given data, we can write
\(\begin{array}{ll}
& S=\frac{G}{n-1} \text { and } S^{\prime}=\frac{G}{n^{\prime}-1} \\
\therefore \quad & \frac{S}{S^{\prime}}=\frac{n^{\prime}-1}{n-1} \\
\therefore \quad & S_n-S=S^{\prime} n^{\prime}-S^{\prime} \\
\therefore \quad & S^{\prime} n^{\prime}=S n-S+S^{\prime} \\
\therefore & n^{\prime}=\frac{S(n-1)+S^{\prime}}{S^{\prime}}
\end{array}\)
\(\begin{array}{ll}
& S=\frac{G}{n-1} \text { and } S^{\prime}=\frac{G}{n^{\prime}-1} \\
\therefore \quad & \frac{S}{S^{\prime}}=\frac{n^{\prime}-1}{n-1} \\
\therefore \quad & S_n-S=S^{\prime} n^{\prime}-S^{\prime} \\
\therefore \quad & S^{\prime} n^{\prime}=S n-S+S^{\prime} \\
\therefore & n^{\prime}=\frac{S(n-1)+S^{\prime}}{S^{\prime}}
\end{array}\)
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