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4.18 Loop currents are shown in the network of Fig. 4-34. Write the matrix equation and solve for the three currents. Ans. 3.55 A, 1:98 A, 2:98 A 4.19 The network of Problem 4.18 has been redrawn in Fig. 4-35 for solution by the node voltage method. Ob- tain node voltages V1 and V2 and verify the currents obtained in Problem 4.18. Ans. 7.11 V, 3:96 V

4.18 Loop currents are shown in the network of Fig. 4-34. Write the matrix equation and solve for the three currents. Ans. 3.55 A, 1:98 A, 2:98 A 4.19 The network of Problem 4.18 has been redrawn in Fig. 4-35 for solution by the node voltage method. Ob- tain node voltages V1 and V2 and verify the currents obtained in Problem 4.18. Ans. 7.11 V, 3:96 V

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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4.18 Loop currents are shown in the network of Fig. 4-34. Write the matrix equation and solve for the three currents. Ans. 3.55 A, 1:98 A, 2:98 A 4.19 The network of Problem 4.18 has been redrawn in Fig. 4-35 for solution by the node voltage method. Ob- tain node voltages V1 and V2 and verify the currents obtained in Problem 4.18. Ans. 7.11 V, 3:96 V
4.18 Loop currents are shown in the network of Fig. 4-34. Write the matrix equation and solve for the three currents. Ans. 3.55 A, –1.98 A, –2.98 A 10 v(t 2 n 1, | 20 V 4 N 2Ω Fig. 4-34 4.19 The network of Problem 4.18 has been redrawn in Fig. 4-35 for solution by the node voltage method. Ob- tain node voltages Vị and V2 and verify the currents obtained in Problem 4.18. Ans. 7.11 V, –3.96 V 20 V 4 N 10 v ref. Fig. 4-35
Transcribed Image Text:4.18 Loop currents are shown in the network of Fig. 4-34. Write the matrix equation and solve for the three currents. Ans. 3.55 A, –1.98 A, –2.98 A 10 v(t 2 n 1, | 20 V 4 N 2Ω Fig. 4-34 4.19 The network of Problem 4.18 has been redrawn in Fig. 4-35 for solution by the node voltage method. Ob- tain node voltages Vị and V2 and verify the currents obtained in Problem 4.18. Ans. 7.11 V, –3.96 V 20 V 4 N 10 v ref. Fig. 4-35
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