Prelab 7.2 Determine the capacitor equation Vc(t) for the circuit shown below if Vc(0) = 5V, iz(0) = 0, and V, = 0. The inductor has an internal resistance of Rind= 56 52 and the voltage source model includes a 50 52 series resistor, R₁, for a total series resistance of 50+ 150+56= 256 Ω. voltage source ww V₂ (7 150 Ω ww inductor 22 mH Rind ww Vc 10 nF
Prelab 7.2 Determine the capacitor equation Vc(t) for the circuit shown below if Vc(0) = 5V, iz(0) = 0, and V, = 0. The inductor has an internal resistance of Rind= 56 52 and the voltage source model includes a 50 52 series resistor, R₁, for a total series resistance of 50+ 150+56= 256 Ω. voltage source ww V₂ (7 150 Ω ww inductor 22 mH Rind ww Vc 10 nF
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Publisher:Robert L. Boylestad
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![Prelab 7.2 Determine the capacitor equation Vc(t) for the circuit shown below if Vc(0) = 5V,
iz (0) = 0, and V, = 0. The inductor has an internal resistance of Rind = 56 2 and the voltage
source model includes a 50 S2 series resistor, R,, for a total series resistance of 50+ 150+56=
256 Ω.
voltage source
20
M
V₂ (7)
150 Ω
ww
inductor
22 mH
Rind
m M
Hli
Vc
+
1
10 nF](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa935b5b3-550a-4564-9870-ed0c06de3fa7%2F8ff2c593-e07f-4541-b48f-c2bf22235bd6%2Fqy0k5ag_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Prelab 7.2 Determine the capacitor equation Vc(t) for the circuit shown below if Vc(0) = 5V,
iz (0) = 0, and V, = 0. The inductor has an internal resistance of Rind = 56 2 and the voltage
source model includes a 50 S2 series resistor, R,, for a total series resistance of 50+ 150+56=
256 Ω.
voltage source
20
M
V₂ (7)
150 Ω
ww
inductor
22 mH
Rind
m M
Hli
Vc
+
1
10 nF
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