The switch in the figure below is initially open and the capacitor is initially uncharged. a) You close the switch at t=0 s. At this instant, what is the current and potential difference across each of the resistors? b) If the switch is left closed for a very long time, what is the charge on the capacitor? c) The switch is re-opened at time t (assume this is after the switch was closed for a very long time). How long after you open the switch is the charge on the capacitor decreased to 10% of its maximum value? Opens at t 100 V 60 Ω ww 40 Ω 10 Q2 2.0 μF = 14
The switch in the figure below is initially open and the capacitor is initially uncharged. a) You close the switch at t=0 s. At this instant, what is the current and potential difference across each of the resistors? b) If the switch is left closed for a very long time, what is the charge on the capacitor? c) The switch is re-opened at time t (assume this is after the switch was closed for a very long time). How long after you open the switch is the charge on the capacitor decreased to 10% of its maximum value? Opens at t 100 V 60 Ω ww 40 Ω 10 Q2 2.0 μF = 14
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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Transcribed Image Text:WORKSHEET 5 - QUESTION 4
The switch in the figure below is initially open and the capacitor is initially uncharged.
a) You close the switch at t=0 s. At this instant, what is the current and potential difference across each
of the resistors?
b) If the switch is left closed for a very long time, what is the charge on the capacitor?
c) The switch is re-opened at time t (assume this is after the switch was closed for a very long time).
How long after you open the switch is the charge on the capacitor decreased to 10% of its maximum
value?
Opens at t
+
100 V
con SMC
60 Ω
ww
40 Ω
www
10 Q2
2.0 μF =
14
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