R1 Bt=T. R3 V1 Vc(t) V2 R2 Given To=2 secs V1=15 V V2=11 V C = 4 F R1=13 2 R2=10 2 R3=14 2 and that the voltage across the capacitor is vC(t) = vc(w) + (Vc(To*) - vC())e™/t for t> To*. Determine the Note that t=RTHC where RTh is the Thevenin equivalent resistance that the time constant t in seconds. capacitor sees after the switch moves from position A to position B at To secs.

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Author:Robert L. Boylestad
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R1
Bt=T.
R3
V1
A
vc(t)
V2
R2
Given
To=2 secs
V1=15 V
V2=11 V
C = 4 F
R1=13 N
R2=10 Q
R3=14 2
and that the voltage across the capacitor is vc(t) = vc(∞) + (Vc(To†) - vC))eT/T for t> To+. Determine the
Note that t=RTHC where RTh is the Thevenin equivalent resistance that the
time constant t in seconds.
capacitor sees after the switch moves from position A to position B at To secs.
Find the time constant t in secs. Round your answer to the nearest single digit decimal place.
Transcribed Image Text:R1 Bt=T. R3 V1 A vc(t) V2 R2 Given To=2 secs V1=15 V V2=11 V C = 4 F R1=13 N R2=10 Q R3=14 2 and that the voltage across the capacitor is vc(t) = vc(∞) + (Vc(To†) - vC))eT/T for t> To+. Determine the Note that t=RTHC where RTh is the Thevenin equivalent resistance that the time constant t in seconds. capacitor sees after the switch moves from position A to position B at To secs. Find the time constant t in secs. Round your answer to the nearest single digit decimal place.
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