Part A :Plate 1 has a potential of V and is in electrostatic equilibrium. What are the potentials for plates 3 and 6? Assume the potential of the negative terminal of the battery is zero. Part B:The charge at the first capacitor with capacitance C is Q. What are the loads on the second and third capacitors? Part C:Consider an "equivalent" capacitor for a system of three capacitors. In the previous case the load of each shelter was calculated. Find the total load for this equivalent capacitance Part D:Using the total load, calculate the equivalent capacitors of these capacitors connected in parallel.

Part A :Plate 1 has a potential of V and is in electrostatic equilibrium. What are the potentials for plates 3 and 6? Assume the potential of the negative terminal of the battery is zero. Part B:The charge at the first capacitor with capacitance C is Q. What are the loads on the second and third capacitors? Part C:Consider an "equivalent" capacitor for a system of three capacitors. In the previous case the load of each shelter was calculated. Find the total load for this equivalent capacitance Part D:Using the total load, calculate the equivalent capacitors of these capacitors connected in parallel.

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter1: Introduction And Vectors

Section: Chapter Questions

Problem 12P

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Concept explainers

Combination of Capacitors

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

Question

Part A :Plate 1 has a potential of V and is in electrostatic equilibrium. What are the potentials for plates 3 and 6? Assume the potential of the negative terminal of the battery is zero.

Part B:The charge at the first capacitor with capacitance C is Q. What are the loads on the second and third capacitors?

Part C:Consider an "equivalent" capacitor for a system of three capacitors. In the previous case the load of each shelter was calculated. Find the total load for this equivalent capacitance

Part D:Using the total load, calculate the equivalent capacitors of these capacitors connected in parallel.

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