A large capacitance of 1.55 mF is needed for a certain application. (a) Calculate the area the parallel plates of such a capacitor must have if they are separated by 4.81 µm of Teflon, which has a dielectric constant of 2.1. m2 (b) What is the maximum voltage that can be applied if the dielectric strength for Teflon is 60 ✕ 106 V/m V (c) Find the maximum charge that can be stored. C
A large capacitance of 1.55 mF is needed for a certain application. (a) Calculate the area the parallel plates of such a capacitor must have if they are separated by 4.81 µm of Teflon, which has a dielectric constant of 2.1. m2 (b) What is the maximum voltage that can be applied if the dielectric strength for Teflon is 60 ✕ 106 V/m V (c) Find the maximum charge that can be stored. C
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
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Question
A large capacitance of 1.55 mF is needed for a certain application.
(a) Calculate the area the parallel plates of such a capacitor must have if they are separated by 4.81 µm of Teflon, which has a dielectric constant of 2.1.
m2
(b) What is the maximum voltage that can be applied if the dielectric strength for Teflon is
V
(c) Find the maximum charge that can be stored.
C
(d) Calculate the volume of Teflon alone in the capacitor.
m3
m2
(b) What is the maximum voltage that can be applied if the dielectric strength for Teflon is
60 ✕ 106 V/m
V
(c) Find the maximum charge that can be stored.
C
(d) Calculate the volume of Teflon alone in the capacitor.
m3
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