Using finite difference method, determine potential and magnitude of electric field at free nodes in the potential system of figure (right-angled triangle), for the following conditions:
Using finite difference method, determine potential and magnitude of electric field at free nodes in the potential system of figure (right-angled triangle), for the following conditions:
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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![Using finite difference method, determine potential and magnitude of electric field at free
nodes in the potential system of figure (right-angled triangle), for the following conditions:
a) h=2€m, using conventional gauss-seidel
method.
10 kV
b) h=2°m, using improved gauss-seidel
method.
5 kV
c) h=1°m, using conventional gauss-seidel
-16 cm
method.
d) h=1°m, using improved gauss-seidel
method.
16 cm
Notes:
In all conditions, assume that the initial guess for the potential of all free nodes is
V; =0.5 kV.
Convergence tolerance for all conditions is ɛ = 104
Number of iterations should be specify for each part.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F147d1c07-3bd9-4547-8657-0672e32a144e%2F268ac780-d106-4cbf-b50c-8b8002a83945%2Fw5syee_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Using finite difference method, determine potential and magnitude of electric field at free
nodes in the potential system of figure (right-angled triangle), for the following conditions:
a) h=2€m, using conventional gauss-seidel
method.
10 kV
b) h=2°m, using improved gauss-seidel
method.
5 kV
c) h=1°m, using conventional gauss-seidel
-16 cm
method.
d) h=1°m, using improved gauss-seidel
method.
16 cm
Notes:
In all conditions, assume that the initial guess for the potential of all free nodes is
V; =0.5 kV.
Convergence tolerance for all conditions is ɛ = 104
Number of iterations should be specify for each part.
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