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Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Question
![Using the step-by-step method, find the value of the output
current, io(t), just before the switch closes (at t=0-) for the
network in Fig. P7.81. Given lç, 11 mA, R1 = 3 kQ, R2 = 6
kQ, R3 = 6 k0, and R4 = 7 KQ.
1
Is mA
R1 ΚΩ
Figure P7.81
R3 ΚΩ
R2K
t = 0
Los
i,(1)
2 mH
SR4K!
Notes on entering solution:
• Enter your solution in milliAmps(mA)
• Enter your solution to the nearest tenth of a mA
. Do not include units in your answer
.ex. 5mA is entered as 5.0
2iA](https://content.bartleby.com/qna-images/question/f29743aa-20ba-4376-81ba-ec57f5b19078/f6c5e8dc-e907-4cc1-be95-835dc869dc0f/uemv6c7_thumbnail.jpeg)
Transcribed Image Text:Using the step-by-step method, find the value of the output
current, io(t), just before the switch closes (at t=0-) for the
network in Fig. P7.81. Given lç, 11 mA, R1 = 3 kQ, R2 = 6
kQ, R3 = 6 k0, and R4 = 7 KQ.
1
Is mA
R1 ΚΩ
Figure P7.81
R3 ΚΩ
R2K
t = 0
Los
i,(1)
2 mH
SR4K!
Notes on entering solution:
• Enter your solution in milliAmps(mA)
• Enter your solution to the nearest tenth of a mA
. Do not include units in your answer
.ex. 5mA is entered as 5.0
2iA
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- There is no energy stored in the circuit of at the time the switch is closed.1. a) Find io(t) for t≥0.2. b) Find vo(t) for t≥0+.3. c) Find i1(t) for t≥0.4. d) Find i2(t) for t≥0.5. e) Do your answers make sense in terms of known circuit behavior?arrow_forwardFind the time constant, T, of the output current, io(t), given the circuit in Fig. P7.7. Given R1 = 6 kQ, R2 = 10 kQ, R3 = 14 kQ, R4 = 14 kQ, and C = 180 µF. 6 V R1 ΚΩ ww Figure P7.7 {R2K2 i(1) CμF R3 ΚΩ ww 1 = 0 R4Karrow_forwardThe switch in the circuit below has been in position a for a long time. At t=0, the switch moves instantaneously to position b. a) Derive the integrodifferential equation that governs the behavior of the voltage v, for t20+ R t = 0 b. Vacarrow_forward
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