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Unformatted text preview: 2/4 Figure 8 9. Use Thevenin’s theorem to find V in the circuit in Fig.9. Figure 9 10. Use Thevenin’s theorem to find V in the network in Fig.10. Figure 10 11. Use Norton’s theorem to find I in the network in Fig.11. Figure 11 12. Apply Norton’s theorem to find I in the network in Fig.12. Last updated: 10/9/2006 10:35:51 AM 3/4 Figure 12 13. Consider the circuit shown in Fig.13. Assuming that the switch has been in position 1 for a long time, at time t=0 the switch is moved to position 2. Calculate the current i(t) for t>0 . Figure 13 14. Given the circuit shown in Fig.14, at t=0 the switch is opened. Calculate the current i(t) for t>0 . Figure 14 (END) Last updated: 10/9/2006 10:35:51 AM 4/4...
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This note was uploaded on 10/28/2011 for the course ELEV 101 taught by Professor Lohsa during the Spring '06 term at HKUST.
 Spring '06
 lohsa

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