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R = 30 N R = 35 N 'ov,- 3 V, = 10 volts R = 7 0 R = 5 N R = 10 N R = 18 N R = 5N OV6 = 200 volts 6 4 Use the numerical method to find the inverse of the matrix of the system above and conclude your calculations about the system above. Note : use the Gauss-Jordan method and LU decomposition to an accuracy of three decimal places. 2. 5

R = 30 N R = 35 N 'ov,- 3 V, = 10 volts R = 7 0 R = 5 N R = 10 N R = 18 N R = 5N OV6 = 200 volts 6 4 Use the numerical method to find the inverse of the matrix of the system above and conclude your calculations about the system above. Note : use the Gauss-Jordan method and LU decomposition to an accuracy of three decimal places. 2. 5

Power System Analysis and Design (MindTap Course List)
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter6: Power Flows
Section: Chapter Questions
Problem 6.5P
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R = 30 N R = 35 N 1 3 OV, = 10 volts R = 7 N R = 5 N R = 10 N R = 18 N R = 5 N O Vs = 200 volts 4 5 Use the numerical method to find the inverse of the matrix of the system above and conclude your calculations about the system above. Note : use the Gauss-Jordan method and LU decomposition to an accuracy of three decimal places.
Transcribed Image Text:R = 30 N R = 35 N 1 3 OV, = 10 volts R = 7 N R = 5 N R = 10 N R = 18 N R = 5 N O Vs = 200 volts 4 5 Use the numerical method to find the inverse of the matrix of the system above and conclude your calculations about the system above. Note : use the Gauss-Jordan method and LU decomposition to an accuracy of three decimal places.
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