QUESTION 3 3.1 In an AC circuit, the sinusoidal voltage v(t) has a peak-to-peak value of 10/2 V and a period of seconds. The sinusoidal current i(t) leads the voltage by 15° 120 and has an RMS value of 4 A. (a) Express the voltage and current as time-domain expressions i.e. a function of time. The sinusoidal voltage v(t) has no initial phase angle. (b) Express the v(t) and i(t) as phasors.

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QUESTION 3 (
3.1 In an AC circuit, the sinusoidal voltage v(t) has a peak-to-peak value of 10/2 V
TT
and a period of
seconds. The sinusoidal current i(t) leads the voltage by 15°
120
and has an RMS value of 4 A.
(a) Express the voltage and current as time-domain expressions i.e. a function of
time. The sinusoidal voltage v(t) has no initial phase angle.
(b) Express the v(t) and i(t) as phasors.
3.2 Figure 3.2 shows a sinusoidal waveform v(t). The period of the waveform is 20
ms. Determine the average value of v(t).
VIV
0.2
t/ms
- 5.8
Figure 3.2
Transcribed Image Text:QUESTION 3 ( 3.1 In an AC circuit, the sinusoidal voltage v(t) has a peak-to-peak value of 10/2 V TT and a period of seconds. The sinusoidal current i(t) leads the voltage by 15° 120 and has an RMS value of 4 A. (a) Express the voltage and current as time-domain expressions i.e. a function of time. The sinusoidal voltage v(t) has no initial phase angle. (b) Express the v(t) and i(t) as phasors. 3.2 Figure 3.2 shows a sinusoidal waveform v(t). The period of the waveform is 20 ms. Determine the average value of v(t). VIV 0.2 t/ms - 5.8 Figure 3.2
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