356 3 5 vo i2 i1 10 10 a 20 i3 30 i4 vo 60

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Unformatted text preview: 10b,d. 4Ω 10 V + − i + 6V − 2Ω | v v Figure 3.48 | For Review Questions 3.5 and 3.6. e-Text Main Menu | Textbook Table of Contents | Problem Solving Workbook Contents CHAPTER 3 Methods of Analysis 109 PROBLEMS Sections 3.2 and 3.3 3.1 Nodal Analysis 3.5 Obtain vo in the circuit of Fig. 3.54. Determine v1 , v2 , and the power dissipated in all the resistors in the circuit of Fig. 3.50. 4Ω v1 + − 30 V v2 8Ω 2Ω 10 A Figure 3.54 3.6 Figure 3.50 3.2 + vo − 4 kΩ 5 kΩ 2 kΩ 6A + − 20 V For Prob. 3.1. For Prob. 3.5. Use nodal analysis to obtain vo in the circuit in Fig. 3.55. For the circuit in Fig. 3.51, obtain v1 and v2 . 4Ω 2Ω i1 6A v1 10 Ω 5Ω v2 12 V 4Ω 3.3 +− i2 + − i3 6Ω 2Ω 3A Figure 3.55 Figure 3.51 10 V vo 3.7 For Prob. 3.2. Find the currents i1 through i4 and the voltage vo in the circuit in Fig. 3.52. For Prob. 3.6. Using nodal analysis, find vo in the circuit of Fig. 3.56. 3Ω 5Ω vo i2 i1 10 Ω 10 A 20 Ω i3 30 Ω i4 + vo − 60 Ω 2A + − 3.4 For Prob. 3.3. 3.8 5Ω i3 10 Ω 12 V + − i4 5Ω v v | | For Prob. 3.4. e-...
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This note was uploaded on 07/16/2012 for the course KA KA 2000 taught by Professor Bkav during the Spring '12 term at Cambridge.

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