Figure 12.31RVZ,VbnRby 8. Each load in the circuit of Fig. 12.31 is composed of an inductive impedance100/28° 2 in parallel with a 500 nF capacitor. The resistance labeledR =1 N.Using positive phase sequence with V = 24020° V at f = 50 Hz, determine the rmsline current, the total power delivered to the load, and the power lost in the wiring.

The solution can be achieved as follows.

Answered: 8. Each load in the circuit of Fig.…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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1. A motor load consists of a resistance of 6 Ohms in series with an inductance of 12 mH. Assume 120Vac, 60 Hz supply. a. What is the complex impedance of the load? b. What is the ac current through this load? c. What is theta, the angle between voltage and current through this load? d. What is the power factor? e. What capacitance should be added in parallel with this load to correct the power factor to 1? f. What is the current from the supply when the power factor is corrected?
Find the current in volt rms: 21 122 respectively when they are connected in parallel and supplied by 230 and Z₁ = 3+j4 2₂=3-j45 Find total current drawn from supply and p.f. at supply terminals.
A single phase, unity power factor load takes 90 Amps at 10 kV. Using a base voltage of 65 kV and base kilovolt amperes of 4475 kVA. Find the base current, base impedance, base power, per unit current and per unit voltage of the load.
A 25 kVA, 240 V single phase source supply the rated power at the rated voltage to a motor at 0.8 power factor lagging. Find the capacitor bank in order to improve the power factor to 0.9 lagging. connected to a motor. a. Calculate the real power, reactive power and current before capacitor bank is connected? P= Q= b. Calculate the power and reactive power after capacitor bank is connected? P = c. What is kVA rating of capacitor bank Qc?
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