Find the Norton equivalent of the circuit. R₁ www U 5 V V R₂ R 2,2 ohm www R3 When a sinusoidal voltage with an effective value of 5V is applied to the circuit below, find the current drawn from the source, the branch currents, and the phase difference between the current and voltage. Note: Use the differential equation solution of the RLC circuit. The initial conditions will be taken as zero. Ic wwww 10 ohm RA | Xc 15 ohm

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Find the Norton equivalent of the circuit.
U
5V
R₁
www
4
+1
V
R₂
R
2,2 ohm
www
R3
When a sinusoidal voltage with an effective value of 5V is applied to the circuit below, find
the current drawn from the source, the branch currents, and the phase difference between the
current and voltage.
Note: Use the differential equation solution of the RLC circuit. The initial conditions will be
taken as zero.
-0000²
X₂
Ic
10 ohm
RA
C
|
Xc
15 ohm
Transcribed Image Text:Find the Norton equivalent of the circuit. U 5V R₁ www 4 +1 V R₂ R 2,2 ohm www R3 When a sinusoidal voltage with an effective value of 5V is applied to the circuit below, find the current drawn from the source, the branch currents, and the phase difference between the current and voltage. Note: Use the differential equation solution of the RLC circuit. The initial conditions will be taken as zero. -0000² X₂ Ic 10 ohm RA C | Xc 15 ohm
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