The outer radius of a concentric spherical electrode system is given as 20 cm. The system is most suitable sized for perforation. The puncture strength of the gas between the spherical layers Ed=80 It is kV/cm and the relative dielectric constant of the gas is Ɛr1=1.a)- Calculate the capacity of the system and the highest voltage that can be applied to the system without rupture Please determine what should be. b)- Maximum and minimum occurring on the system for the case of U=100 kV application. Calculate the electric field values?
The outer radius of a concentric spherical electrode system is given as 20 cm. The system is most suitable sized for perforation. The puncture strength of the gas between the spherical layers Ed=80 It is kV/cm and the relative dielectric constant of the gas is Ɛr1=1.a)- Calculate the capacity of the system and the highest voltage that can be applied to the system without rupture Please determine what should be. b)- Maximum and minimum occurring on the system for the case of U=100 kV application. Calculate the electric field values?
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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The outer radius of a concentric spherical electrode system is given as 20 cm. The system is most suitable sized for perforation. The puncture strength of the gas between the spherical layers Ed=80 It is kV/cm and the relative dielectric constant of the gas is Ɛr1=1.a)- Calculate the capacity of the system and the highest voltage that can be applied to the system without rupture Please determine what should be. b)- Maximum and minimum occurring on the system for the case of U=100 kV application. Calculate the electric field values?
(Ɛ0=8,854x10-12 F/m)
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