2. Refer to the Figure 2. a) Determine the total impedance of the circuit in polar form. b) Determine the voltage v(t) and current i(t) sinusoidal forms. Sketch one cycle of the waveforms in the same x-axis. Clearly indicating the peak value and the period of each waveform and the phase difference (in milliseconds) between the two waveforms. c) Determine the values of resistance R and inductance L. d) Determine the phasors V, VR and Vc. e) Sketch the phasor diagram showing Vs, Vr, Vr, Vc and I.

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2. Refer to the Figure 2.
a) Determine the total impedance of the circuit in polar form.
b) Determine the voltage v(t) and current i(t) sinusoidal forms. Sketch one cycle of
the waveforms in the same x-axis. Clearly indicating the peak value and the
period of each waveform and the phase difference (in milliseconds) between the
two waveforms.
c) Determine the values of resistance R and inductance L.
d) Determine the phasors V,, VR and Vc.
e) Sketch the phasor diagram showing Vs, Vr, Vr, Vc and I.
Transcribed Image Text:2. Refer to the Figure 2. a) Determine the total impedance of the circuit in polar form. b) Determine the voltage v(t) and current i(t) sinusoidal forms. Sketch one cycle of the waveforms in the same x-axis. Clearly indicating the peak value and the period of each waveform and the phase difference (in milliseconds) between the two waveforms. c) Determine the values of resistance R and inductance L. d) Determine the phasors V,, VR and Vc. e) Sketch the phasor diagram showing Vs, Vr, Vr, Vc and I.
C
I = 1002 – 20° mA
35μF
ll
VL
Vc
V = 120430° V
VR
R
f = 60 Hz
Figure 2.
Transcribed Image Text:C I = 1002 – 20° mA 35μF ll VL Vc V = 120430° V VR R f = 60 Hz Figure 2.
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