The outer radius of a concentric spherical electrode system is given as 20 cm. The system is the most suitable sized according to puncture. Puncture strength of gas between spherical layers Ed = 80 kV / cm and the relative dielectric constant of the gas is r1 = 1. 0) - Calculate the capacity of the system and the highest voltage that can be applied to the system without puncture Determine what should happen. b) - For the case of U = 100 kV application, the maximum and minimum occurrence on the system Calculate the electric field values? (Ɛ0 = 8,854x10-12 F / m)
The outer radius of a concentric spherical electrode system is given as 20 cm. The system is the most suitable sized according to puncture. Puncture strength of gas between spherical layers Ed = 80 kV / cm and the relative dielectric constant of the gas is r1 = 1. 0) - Calculate the capacity of the system and the highest voltage that can be applied to the system without puncture Determine what should happen. b) - For the case of U = 100 kV application, the maximum and minimum occurrence on the system Calculate the electric field values? (Ɛ0 = 8,854x10-12 F / m)
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter25: Surge, Spike, And Lightning Protection
Section: Chapter Questions
Problem 10RQ: In reference to the load, how are capacitors connected to help prevent voltage spikes and surges?...
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The outer radius of a concentric spherical electrode system is given as 20 cm. The system is the most suitable sized according to puncture. Puncture strength of gas between spherical layers Ed = 80 kV / cm and the relative dielectric constant of the gas is r1 = 1. 0) - Calculate the capacity of the system and the highest voltage that can be applied to the system without puncture Determine what should happen. b) - For the case of U = 100 kV application, the maximum and minimum occurrence on the system Calculate the electric field values? (Ɛ0 = 8,854x10-12 F / m)
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