Explanation Given information: Themaximum voltage that can be applied to the capacitor is V max = K × d . The maximum energy that can be stored in the capacitor is W max = 1 2 × ε 0 × ε r × K 2 × ( V o l ) J Where, K = 32 × 10 5 V m ,. Desired energy to be stored is 1 mJ . The voltage applied across the plates of capacitor is 1000 V . Calculation: V max = K × d d = V max K ( 1 ) Putting the given values in equation (1). d = 1000 32 × 10 5 d = 3.125 × 10 − 4 m Now, W max = 1 2 × ε 0 × ε r × K 2 × ( V o l ) V o l = 2 × W max ε 0 × ε r × K 2 ( 2 ) Putting the given values in equation (2)

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ISBN: 8220106714201

Author: HAMBLEY

Publisher: YUZU

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Dielectric Breakdown

A dielectric is a material with low electrical conductivity and so is classified as an insulator. Dielectric materials are used to block the flow of electricity through them, allowing them to behave as an insulators. They can also be used to store electr…

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Chapter 3, Problem 3.40P

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The dimensions of the parallel plate capacitor for the given condition.

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Chapter 3, Problem 3.39P

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The dimensions of the parallel plate capacitor for the given condition.

Solution Summary: The author explains the dimensions of the parallel plate capacitor having square plate for the least possible volume condition is 0.26569m.

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