1. For spherical and cylindrical electrode system designed in optimum geometric dimensions a) - Prove that the optimum geometry for the spherical electrode system is r2 / r1 = 2. b) - Prove that the optimum geometry for the cylindrical electrode system is r2 / r1 = e. (Note: Cylinder / sphere surface is smooth and the flux density is the same for every point of the cylinder / sphere surface. will be accepted.
1. For spherical and cylindrical electrode system designed in optimum geometric dimensions a) - Prove that the optimum geometry for the spherical electrode system is r2 / r1 = 2. b) - Prove that the optimum geometry for the cylindrical electrode system is r2 / r1 = e. (Note: Cylinder / sphere surface is smooth and the flux density is the same for every point of the cylinder / sphere surface. will be accepted.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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1. For spherical and cylindrical electrode system designed in optimum geometric dimensions
a) - Prove that the optimum geometry for the spherical electrode system is r2 / r1 = 2.
b) - Prove that the optimum geometry for the cylindrical electrode system is r2 / r1 = e. (Note: Cylinder / sphere surface is smooth and the flux density is the same for every point of the cylinder / sphere surface. will be accepted.)
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