7) A power line has the following parameters for every kilometer: inductive reactance = 0.52, capacitive reactance 300k2, resistance -0.052. For a line of 100km, the lumped capacitive reactance is split at both terminals, the value at each terminal is (a) 3.0k2 (b) 30M2 (c) 1.5k2 (d) 6k2
7) A power line has the following parameters for every kilometer: inductive reactance = 0.52, capacitive reactance 300k2, resistance -0.052. For a line of 100km, the lumped capacitive reactance is split at both terminals, the value at each terminal is (a) 3.0k2 (b) 30M2 (c) 1.5k2 (d) 6k2
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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Transcribed Image Text:7) A power line has the following parameters for every kilometer: inductive reactance = 0.52,
capacitive reactance = 300k2, resistance =0.052. For a line of 100km, the lumped capacitive
reactance is split at both terminals, the value at each teminal is
(a) 3.0k2
(b) 30M2
(c) 1.5k2
(d) 6k2
8) A 230kV transmission line has the parameters as in question 7). It delivers 150MW to a city.
Referring to the power transmitted, the losses of the transmission line is
(d) 1.4%
(a) 0.47%
(b)23.5%
(c) 4.3%
9) In question 8), referring to the power transmitted, the absorbed reactive power is
(d) 4.7%
(a) 14.2%
(b) 42.5%
(c) 235.1%
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