a) We write that, the electric field reigning in between the plates of a parallel plate capacitor, is constant. Why? Hint: Show, via using Gauss Law that a uniformly charge infinite plane of surface density o, creates at any altitude above or below it, an electric field intensity E= o/2ɛ0, written n MKS unit system. b) Despite this result, the electric field intensity between the plates of a capacitor amounts to E= 0/ɛ0 Why? Is the outcome valid near the edges of the plates?
a) We write that, the electric field reigning in between the plates of a parallel plate capacitor, is constant. Why? Hint: Show, via using Gauss Law that a uniformly charge infinite plane of surface density o, creates at any altitude above or below it, an electric field intensity E= o/2ɛ0, written n MKS unit system. b) Despite this result, the electric field intensity between the plates of a capacitor amounts to E= 0/ɛ0 Why? Is the outcome valid near the edges of the plates?
Chapter5: Electric Charges And Fields
Section: Chapter Questions
Problem 85P: Two thin parallel conducting plates are placed 2.0 cm apart. Each plate is 2.0 cm on a side; one...
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![Question 1
a) We write that, the electric field reigning in between the plates of a parallel
plate capacitor, is constant. Why? Hint: Show, via using Gauss Law that a
uniformly charge infinite plane of surface density ơ, creates at any altitude
above or below it, an electric field intensity E= o/2ɛ0, written n MKS unit
system.
b) Despite this result, the electric field intensity between the plates of a capacitor
amounts to E= o/ɛ0 Why? Is the outcome valid near the edges of the plates?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F496c198e-98c2-4827-b062-efeacf968125%2F9a216c9b-8011-490e-8cbb-8d5afae0ed70%2Fofqi3wd_processed.png&w=3840&q=75)
Transcribed Image Text:Question 1
a) We write that, the electric field reigning in between the plates of a parallel
plate capacitor, is constant. Why? Hint: Show, via using Gauss Law that a
uniformly charge infinite plane of surface density ơ, creates at any altitude
above or below it, an electric field intensity E= o/2ɛ0, written n MKS unit
system.
b) Despite this result, the electric field intensity between the plates of a capacitor
amounts to E= o/ɛ0 Why? Is the outcome valid near the edges of the plates?
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