Two parallel loads in the circuit below can be described as follows: Load L absorbs an average power of 8 kW at 0.8 power factor leading. Load L2 absorbs 20 kVA at 0.6 power factor lagging. If the voltage across the loads (L1 and L2) is V = 250200 V (RMS) then: (a) Find the impedance that is equivalent to the two parallel loads. (b) Find the RMS magnitude and the phase angle of Vs. (c) Find the power factor of the equivalent load as seen by the source Vs. 0.05n jo.52 ell, +. 250 Lo レErms) Vs

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Two parallel loads in the circuit below can be described as follows: Load L
absorbs an average power of 8 kW at 0.8 power factor leading. Load L2 absorbs 20
kVA at 0.6 power factor lagging. If the voltage across the loads (L1 and L2) is V =
250200 V (RMS) then:
(a) Find the impedance that is equivalent to the two parallel loads.
(b) Find the RMS magnitude and the phase angle of Vs.
(c) Find the power factor of the equivalent load as seen by the source Vs.
0.05n
jo.52
ell,
+.
250 Lo
レErms)
Vs
Transcribed Image Text:Two parallel loads in the circuit below can be described as follows: Load L absorbs an average power of 8 kW at 0.8 power factor leading. Load L2 absorbs 20 kVA at 0.6 power factor lagging. If the voltage across the loads (L1 and L2) is V = 250200 V (RMS) then: (a) Find the impedance that is equivalent to the two parallel loads. (b) Find the RMS magnitude and the phase angle of Vs. (c) Find the power factor of the equivalent load as seen by the source Vs. 0.05n jo.52 ell, +. 250 Lo レErms) Vs
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