Consider the circuit diagram below, where: v:(t) = 12 cos(377t) v2(t) = 5 cos (377t) Use node analysis to determine the voltage at nodes a and b. Express the voltages as sinusoids in the time domain with phase angles measured in degrees. You may solve the system of equations using MATLAB or a similar software, but you must include the code you ran as part of your solution. R1 3 kn R2 8 kl 450 nF ww ww + v;(t) N C2 600 nF 2(t) 5 H

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Consider the circuit diagram below, where:
v:(t) = 12 cos(377t)
v2(t) = 5 cos (377t)
Use node analysis to determine the voltage at nodes a and b. Express the voltages
as sinusoids in the time domain with phase angles measured in degrees. You may
solve the system of equations using MATLAB or a similar software, but you must
include the code you ran as part of your solution.
R1
3 kn
R2
8 kl
450 nF
ww
ww
+
v;(t) N
C2
600 nF
2(t)
5 H
Transcribed Image Text:Consider the circuit diagram below, where: v:(t) = 12 cos(377t) v2(t) = 5 cos (377t) Use node analysis to determine the voltage at nodes a and b. Express the voltages as sinusoids in the time domain with phase angles measured in degrees. You may solve the system of equations using MATLAB or a similar software, but you must include the code you ran as part of your solution. R1 3 kn R2 8 kl 450 nF ww ww + v;(t) N C2 600 nF 2(t) 5 H
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