The figure below shows a balanced three phase three wire system with positive phase sequence. Let VBC = (120/60°) VRMS| and R₁|= 0.6 2. If the total load including wire resistance draws 5 KVA at PF = 0.8 lagging and the impedance in each phase is larger than the line resistance, find (a) the total power lost in the line resistance, and (b) Vant Von +1 Rw Vbn Rw Van (a) Plines 1041.99 (b) Van 81.29 W 143.88 ZP ZP Rw ° V Zp
The figure below shows a balanced three phase three wire system with positive phase sequence. Let VBC = (120/60°) VRMS| and R₁|= 0.6 2. If the total load including wire resistance draws 5 KVA at PF = 0.8 lagging and the impedance in each phase is larger than the line resistance, find (a) the total power lost in the line resistance, and (b) Vant Von +1 Rw Vbn Rw Van (a) Plines 1041.99 (b) Van 81.29 W 143.88 ZP ZP Rw ° V Zp
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 figure below shows a balanced three phase three wire system with positive phase sequence. Let VBC = (120/60°) VRMS| and R₁|=
0.6 2. If the total load including wire resistance draws 5 KVA at PF = 0.8 lagging and the impedance in each phase is larger than the line
resistance, find
(a) the total power lost in the line resistance, and
(b) Vant
Von
+1
Rw
Vbn
Rw
Van
(a) Plines 1041.99
(b) Van 81.29
W
143.88
ZP
ZP
Rw
° V
Zp
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