What is the equivalent capacitance of the circuit? 9.0 uF 12.0 uF 4.0 uF 2.0 uF ㅏㅏ ㅏ HI ㅏ 3.0 uF 18 uF 30 V

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The image shows a circuit diagram consisting of a single capacitor labeled "3.0 μF" connected in parallel with a 30 V battery. Below the circuit diagram, there is a list of options, presumably for a multiple-choice question, which are as follows: - ○ 18 μF - ○ 30 μF - ○ 3 μF - ○ 13.2 μF - ○ 2 μF - ○ 4 μF The task might involve determining an equivalent capacitance or similar calculation related to the circuit shown.

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**Question:** What is the equivalent capacitance of the circuit? **Diagram Description:** The circuit diagram consists of six capacitors and a voltage source. - Capacitors with the following capacitances are shown: - 9.0 μF - 12.0 μF - 4.0 μF - 2.0 μF - 3.0 μF - Configuration Details: - The 9.0 μF capacitor is placed in parallel with a series combination of 12.0 μF, 4.0 μF, and 2.0 μF capacitors. - This entire arrangement is connected in parallel with a 3.0 μF capacitor. - The voltage source is marked as 30 V. - Connection Points: - The diagram is labeled with points 'a' and 'b', which connect the combination of capacitors. - The voltage source is connected across these points. **Options:** - 18 μF **Graph/Diagram Analysis:** The diagram shows a complex circuit with multiple capacitors arranged in both series and parallel configurations. To find the equivalent capacitance, one must first calculate the series and parallel combinations separately. Once the equivalent capacitance of the series sections is found, it should be combined using parallel formulas to find the total equivalent capacitance of the circuit.