-j30 Is IL IR Vc Vs j6N ViR 122 Figure QI(b) (b) An ideal voltage source is connected with one resistor, one capacitor, and one inductor as shown in Figure QI(b). The source provides an ideal sinusoidal voltage Vs = 15 V with frequency f= 50 Hz. Underlined quantities are phasors. i) Explain impedance and admittance. Then, caleulate the combined admittance YLR of the resistor and inductor, and the total impedance ZaLR of the resistor, inductor, and capacitor, presented to the voltage source. ii) Explain nodal analysis. Then, using nodal analysis and taking Vs as the reference phasor, calculate the phasor voltages VLR, and Vc. ii) Calculate the phasor currents Is. I and IR.

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-j3N
Is
IL
IR
Vc
Vs
j6N
ViR Ž 122
Figure QI(b)
(b) An ideal voltage source is connected with one resistor, one capacitor, and one inductor as
shown in Figure QI(b). The source provides an ideal sinusoidal voltage Vs = 15 V with
frequency f= 50 Hz. Underlined quantities are phasors.
i)
Explain impedance and admittance. Then, calculate the combined admittance YLR
of the resistor and inductor, and the total impedance ZCLR of the resistor, inductor,
and capacitor, presented to the voltage source.
ii) Explain nodal analysis. Then, using nodal analysis and taking Vs as the reference
phasor, calculate the phasor voltages VLR, and Vc.
iii)
Calculate the phasor currents Is. I and IR.
Transcribed Image Text:-j3N Is IL IR Vc Vs j6N ViR Ž 122 Figure QI(b) (b) An ideal voltage source is connected with one resistor, one capacitor, and one inductor as shown in Figure QI(b). The source provides an ideal sinusoidal voltage Vs = 15 V with frequency f= 50 Hz. Underlined quantities are phasors. i) Explain impedance and admittance. Then, calculate the combined admittance YLR of the resistor and inductor, and the total impedance ZCLR of the resistor, inductor, and capacitor, presented to the voltage source. ii) Explain nodal analysis. Then, using nodal analysis and taking Vs as the reference phasor, calculate the phasor voltages VLR, and Vc. iii) Calculate the phasor currents Is. I and IR.
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