Question:medium
The equivalent capacitance of a combination of connected capacitors shown in the figure between the points P and N is:
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The equivalent capacitance of a combination of connected capacitors shown in the figure between the points P and N is:
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For complex capacitor networks, first reduce series and parallel combinations step by step to find the overall equivalent capacitance.
Updated On: Nov 28, 2025
- 3C
- \(\frac{2C}{3}\)
- \(\frac{4C}{5}\)
- \(\frac{3}{2}C\)
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The Correct Option is B
Solution and Explanation
Step 1: The diagram shows series and parallel capacitors. For series capacitors, the equivalent capacitance \( C_{\text{eq}} \) is:
\[ \frac{1}{C_{\text{eq}}} = \frac{1}{C_1} + \frac{1}{C_2} + \cdots \]
For parallel capacitors, the equivalent capacitance is:
\[ C_{\text{eq}} = C_1 + C_2 + \cdots \]
Step 2: Applying these formulas to the capacitor circuit, the equivalent capacitance between points \( P \) and \( N \) is:
\[ \frac{2C}{3}. \]
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