is absorbing an average power of 7.5kW and +7KVAR; Load 2 is absorbing an average power of 2.1kW and generating 2KVAR of magnetizing reactive power; Load 3 has 48 + 19.2j ohms impedance. Assum Vo = 480 angle 0 Vrms. Determine the total current drawn from the source. j0.5 2 V, L, L2 L3 36.22 angle -37.8 deg. A 36.22 angle 37.8 deg. A 36.22 angle -47.8 deg. A 36.22 angle 47.8 deg. A
is absorbing an average power of 7.5kW and +7KVAR; Load 2 is absorbing an average power of 2.1kW and generating 2KVAR of magnetizing reactive power; Load 3 has 48 + 19.2j ohms impedance. Assum Vo = 480 angle 0 Vrms. Determine the total current drawn from the source. j0.5 2 V, L, L2 L3 36.22 angle -37.8 deg. A 36.22 angle 37.8 deg. A 36.22 angle -47.8 deg. A 36.22 angle 47.8 deg. A
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Transcribed Image Text:The three parallel loads in the circuit shown below can be described as follow: Load 1
is absorbing an average power of 7.5kW and +7KVAR; Load 2 is absorbing an average
power of 2.1kW and generating 2kVAR of magnetizing reactive power; Load 3 has 48 +
19.2j ohms impedance. Assum Vo = 480 angle 0 Vrms. Determine the total current
drawn from the source.
j0.5 N
V. L,
L2
L3
36.22 angle -37.8 deg. A
36.22 angle 37.8 deg. A
36.22 angle -47.8 deg. A
36.22 angle 47.8 deg. A
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