12 V 100 μF Β ΚΩ 8 ΚΩ and v(t)=[Select] > Β' ΚΩ In the ciruit shown above, switch has been closed for a long time before time t = 0 s. The volatge across the capacitor at time t= 0s when the switch is opened is vo(1) vc (0)= vc (0) = vc (0+) = 12 V for time t > 0 s; the circuit becomes source free with a capacitor = 100 μF and equivalent resistance Req = [ Select ] k. Time constant for the source free circuit (at t >0 s) = [Select] S. vc (t) for the source free circuit (at t>0 s) = [ Select]

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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12 V
100 μF
Β ΚΩ
8 ΚΩ
and v (t) = [ Select]
· Β ΚΩ
In the ciruit shown above, switch has been closed for a long time before
time t = 0 s.
The volatge across the capacitor at time t= 0s when the switch is opened
is
vo(1)
vc (0)= vc (0) = vc (0+) = 12 V
for time t > 0 s; the circuit becomes source free with a capacitor = 100 μF
and equivalent resistance Req = [ Select ] k.
Time constant for the source free circuit (at t >0 s) =
[Select]
S.
vc (t) for the source free circuit (at t>0 s) =
[ Select]
Transcribed Image Text:12 V 100 μF Β ΚΩ 8 ΚΩ and v (t) = [ Select] · Β ΚΩ In the ciruit shown above, switch has been closed for a long time before time t = 0 s. The volatge across the capacitor at time t= 0s when the switch is opened is vo(1) vc (0)= vc (0) = vc (0+) = 12 V for time t > 0 s; the circuit becomes source free with a capacitor = 100 μF and equivalent resistance Req = [ Select ] k. Time constant for the source free circuit (at t >0 s) = [Select] S. vc (t) for the source free circuit (at t>0 s) = [ Select]
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