The figure shows an open switch, a battery of potential difference V, a current-measuring meter A, and three identical uncharged capacitors of capacitance C. (a) When the switch is closed and the circuit reaches equilibrium, what is the potential difference across each capacitor? O v O v/3 O 3V (b) When the switch is closed and the circuit reaches equilibrium, what is the charge on the left plate of each capacitor? A) O C/3 O CV O 3CV (c) During charging, what net charge passes through the meter? A) O Cv/3 O CV O 3CV

The figure shows an open switch, a battery of potential difference V, a current-measuring meter A, and three identical uncharged capacitors of capacitance C. (a) When the switch is closed and the circuit reaches equilibrium, what is the potential difference across each capacitor? O v O v/3 O 3V (b) When the switch is closed and the circuit reaches equilibrium, what is the charge on the left plate of each capacitor? A) O C/3 O CV O 3CV (c) During charging, what net charge passes through the meter? A) O Cv/3 O CV O 3CV

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Concept explainers

Combination of Capacitors

The connection of capacitors can be established in a circuit in two ways.

Question

**Educational Website Content**

The following diagram illustrates a circuit with an open switch, a battery supplying a potential difference of \( V \), a current-measuring meter \( A \), and three identical uncharged capacitors each with a capacitance of \( C \).

### Diagram Explained:

1. **Circuit Elements:**
- **Battery**: Provides a potential difference \( V \).
- **Capacitors**: Three identical capacitors with capacitance \( C \).
- **Switch**: Initially open, used to control the flow of current.
- **Current Meter (A)**: Measures current in the circuit once the switch is closed.

### Questions and Choices:

**(a) Potential Difference Across Each Capacitor**

When the switch is closed and the circuit reaches equilibrium, determine the potential difference across each capacitor.

- Options:
- \( V \)
- \( V/3 \)
- \( 3V \)

**(b) Charge on the Left Plate of Each Capacitor**

Upon closing the switch and reaching equilibrium, find the charge on the left plate of each capacitor.

- Options:
- \( CV/3 \)
- \( CV \)
- \( 3CV \)

**(c) Net Charge Through the Meter During Charging**

During the charging process, identify the net charge that passes through the meter.

- Options:
- \( CV/3 \)
- \( CV \)
- \( 3CV \)

These questions assess understanding of capacitor behavior in circuits and require application of concepts like charge distribution and potential difference in series configurations.

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