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Q2) For the network in fig. below a. Calculate Vc, ic, and vR, at 0.5 s and 1 s after the switch makes contact with position 1. b. The network sits in position 1 10 min before the switch is moved to position 2. How long after making contact with position 2 will it take for the current ic to drop to 8 µA? How much longer will it take for ve to drop to 10 V? + VR R1 1. I MO ic 2 0.2 uF Vc E E =60 V R2 4 MQ

Q2) For the network in fig. below a. Calculate Vc, ic, and vR, at 0.5 s and 1 s after the switch makes contact with position 1. b. The network sits in position 1 10 min before the switch is moved to position 2. How long after making contact with position 2 will it take for the current ic to drop to 8 µA? How much longer will it take for ve to drop to 10 V? + VR R1 1. I MO ic 2 0.2 uF Vc E E =60 V R2 4 MQ

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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Q2) For the network in fig. below a. Calculate Vc, ic, and vR, at 0.5 s and 1 s after the switch makes contact with position 1. b. The network sits in position 1 10 min before the switch is moved to position 2. How long after making contact with position 2 will it take for the current i to drop to 8 µA? How much longer will it take for ve to drop to 10 V? +VR R1 I MQ yic 2. 0.2 uF vC E 60 V R2 4 MQ
Transcribed Image Text:Q2) For the network in fig. below a. Calculate Vc, ic, and vR, at 0.5 s and 1 s after the switch makes contact with position 1. b. The network sits in position 1 10 min before the switch is moved to position 2. How long after making contact with position 2 will it take for the current i to drop to 8 µA? How much longer will it take for ve to drop to 10 V? +VR R1 I MQ yic 2. 0.2 uF vC E 60 V R2 4 MQ
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