# Complex Power Calculation Across Parallel Loads

This post categorized under Vector and posted on September 11th, 2018.

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Load 1 is a derivable impedance based on its VA power factor and 600 volts applied. Load 2 has a fully defined impedance and Load 3 has a known power factor. This information along with the knowledge of what the overall power factor of the three loads are tells you enough to calculate the impedance of Load 3.In power system vectorysis the concept of Complex Power is frequently used to calculate the real and reactive power. This is a very simple and important representation of real and reactive power when voltage and current phasors are known.The load (L1) absorbs P 17 W and Q 23 VAR of power. Use this information to calculate complex power provided by the source if the voltage across the load is Vz-600 V-rms 60 Hz source and the impedance of the transmission line is 0.035 J (-0.010) .

Power Calculations Chapter 5 parallel seriesparallel or otherwise. Power is a measure of rate of work Load More Articles. Complex Power in Capacitive Loads Complex Power in Active Reactive Apparent and Complex Power. product of Voltage across the load and Part A - Power and power factor for parallel loads I. Use this information to calculate complex power provided by the source if the voltage across the load isV x 100%(7)

The Power Factor and Complex Power Power Factors for loads with impedances in this quadrant are load in parallel with it