1. Design a capacitor set-up that can give at least 1 Farad. You can focus on the design by finding the area and distance between the plates that are needed to reach 1F. The other way is to build a series or parallel connections of commercially available capacitors and reach 1F. After reaching the highest possible capacitance, compute the charge that it can hold given a 2.7 V potential difference.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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1.
Design a capacitor set-up that can give at least 1 Farad. You can focus
on the design by finding the area and distance between the plates that are needed to
reach 1F. The other way is to build a series or parallel connections of commercially
available capacitors and reach 1F. After reaching the highest possible capacitance,
compute the charge that it can hold given a 2.7 V potential difference.
2.
you will have 9 resistors in your circuit. All the resistors will have the
same value, name them using R1, R2, and so on. Your goal is to design a circuit that is
composed of series and parallel resistors in combination then find the total resistance of
the circuit. Using 12V as the potential difference, compute the current and voltage that
is passing thru each of your resistors. Show your solution step by step as clearly as
possible, and make a table summarizing the values.
Transcribed Image Text:1. Design a capacitor set-up that can give at least 1 Farad. You can focus on the design by finding the area and distance between the plates that are needed to reach 1F. The other way is to build a series or parallel connections of commercially available capacitors and reach 1F. After reaching the highest possible capacitance, compute the charge that it can hold given a 2.7 V potential difference. 2. you will have 9 resistors in your circuit. All the resistors will have the same value, name them using R1, R2, and so on. Your goal is to design a circuit that is composed of series and parallel resistors in combination then find the total resistance of the circuit. Using 12V as the potential difference, compute the current and voltage that is passing thru each of your resistors. Show your solution step by step as clearly as possible, and make a table summarizing the values.
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