5. RC Charging Circuit is shown in the figure. Find the differantial equation and its solution of represent the charcing circuit using KIRCHHOFF's RULE by meaning changing the t- 0 R= 47kn charges with respect to time. (Vc = , 1 =) and then Calculate; dt a. q(t = 100) =? The charge across the Capacitor after 100 seconds b. Vc(t = 100) =?The voltage across the Capacitor after 100 seconds E=5V Vc 1000uF
5. RC Charging Circuit is shown in the figure. Find the differantial equation and its solution of represent the charcing circuit using KIRCHHOFF's RULE by meaning changing the t- 0 R= 47kn charges with respect to time. (Vc = , 1 =) and then Calculate; dt a. q(t = 100) =? The charge across the Capacitor after 100 seconds b. Vc(t = 100) =?The voltage across the Capacitor after 100 seconds E=5V Vc 1000uF
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:5. RC Charging Circuit is shown in the figure. Find the differantial equation and its solution of represent the
charcing circuit using KIRCHHOFF's RULE by meaning changing the
t- 0
R= 47kn
charges with respect to time. (Vc =%, 1 = ) and then Calculate:
dt
a. q(t = 100) =? The charge across the Capacitor after 100 seconds
b. Vc(t = 100) =?The voltage across the Capacitor after 100 seconds
E=5V
Vc
C-
1000uF
l1=10 A
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