Required information It has only been fairly recently that 1.00-F capacitors have been readily available. A typical 1.00-F capacitor can withstand up to 4.20 V. To get an idea why it isn't easy to make a 1.00-F capacitor, imagine making a 1.00-F parallel plate capacitor using titanium dioxide (K = 90.0, breakdown strength 4.00 kV/mm) as the dielectric. Find the minimum thickness of the titanium dioxide such that the capacitor can withstand 4.20 V. 1318.2674 μm
Required information It has only been fairly recently that 1.00-F capacitors have been readily available. A typical 1.00-F capacitor can withstand up to 4.20 V. To get an idea why it isn't easy to make a 1.00-F capacitor, imagine making a 1.00-F parallel plate capacitor using titanium dioxide (K = 90.0, breakdown strength 4.00 kV/mm) as the dielectric. Find the minimum thickness of the titanium dioxide such that the capacitor can withstand 4.20 V. 1318.2674 μm
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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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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Transcribed Image Text:Required information
It has only been fairly recently that 1.00-F capacitors have been readily available. A typical 1.00-F capacitor can withstand
up to 4.20 V. To get idea why it isn't easy to make a 1.00-F capacitor, imagine making a 1.00-F parallel plate capacitor
using titanium dioxide (K = 90.0, breakdown strength 4.00 kV/mm) as the dielectric.
Find the minimum thickness of the titanium dioxide such that the capacitor can withstand 4.20 V.
1318.2674 um
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