KCET · Physics · Current Electricity
Two cells of emfs \(E_1\) and \(E_2\) and internal resistances \(r_1\) and \(r_2\left(E_2\gt E_1\right.\) and \(\left.r_2\gt r_1\right)\) respectively, are connected in parallel as shown in figure. The equivalent emf of the combination is \(\mathrm{E}_{\mathrm{eq}}\). Then
- A \(\mathrm{E}_1 \lt \mathrm{E}_{\mathrm{eq}} \lt \mathrm{E}_2\) and \(\mathrm{E}_{\mathrm{eq}}\) is nearer \(\mathrm{E}_2\)
- B \(\mathrm{E}_{\mathrm{eq}}\gt\mathrm{E}_2\)
- C \(\mathrm{E}_{\mathrm{eq}} \lt \mathrm{E}_1\)
- D \(\mathrm{E}_1 \lt \mathrm{E}_{\mathrm{eq}} \lt \mathrm{E}_2\) and \(\mathrm{E}_{\mathrm{eq}}\) is nearer \(\mathrm{E}_1\)
Answer & Solution
Correct Answer
(D) \(\mathrm{E}_1 \lt \mathrm{E}_{\mathrm{eq}} \lt \mathrm{E}_2\) and \(\mathrm{E}_{\mathrm{eq}}\) is nearer \(\mathrm{E}_1\)
Step-by-step Solution
Detailed explanation
\(\varepsilon \mathrm{eq}=\frac{\frac{\varepsilon 1}{\mathrm{r}_1}+\frac{\varepsilon_2}{\mathrm{r}_2}}{\frac{1}{\mathrm{r}_1}+\frac{1}{\mathrm{r}_2}}=\frac{\varepsilon_1 \mathrm{r}_2+\varepsilon_2 \mathrm{r}_1}{\mathrm{r}_1+\mathrm{r}_2}\)
Between \(E_1 \& E_2\).
Between \(E_1 \& E_2\).
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