A 2-wire d.c. distributor is 250 m long. It is to be loaded as shown in Fig 13.10 at 50 m intervals. If the maximum voltage drop is not to exceed 10V and the resistivity of core material is 0-7 x 2-54 u2 cm, determine the maximum cross-sectional area of each conductor. (1-602 em') Supply End 120 A 90 A 60 A 50 A 80 A Fig. 13.10
A 2-wire d.c. distributor is 250 m long. It is to be loaded as shown in Fig 13.10 at 50 m intervals. If the maximum voltage drop is not to exceed 10V and the resistivity of core material is 0-7 x 2-54 u2 cm, determine the maximum cross-sectional area of each conductor. (1-602 em') Supply End 120 A 90 A 60 A 50 A 80 A Fig. 13.10
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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![4. A 2-wire d.c. distributor is 250 m long. It is to be loaded as shown in Fig 13.10 at 50 m intervals. If the
maximum voltage drop is not to exceed 10V and the resistivity of core material is 0-7 x 2-54 µ2 cm,
determine the maximum cross-sectional area of each conductor.
(1-602 cm']
Supply
End
120 A
90 A
60 A
50 A
80 A
Fig. 13.10](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7e414cba-66a3-49b2-9658-17087b6b116c%2Fbe8d8056-827c-467e-8eb6-cf9019d881f8%2Fyvvj4ban_processed.jpeg&w=3840&q=75)
Transcribed Image Text:4. A 2-wire d.c. distributor is 250 m long. It is to be loaded as shown in Fig 13.10 at 50 m intervals. If the
maximum voltage drop is not to exceed 10V and the resistivity of core material is 0-7 x 2-54 µ2 cm,
determine the maximum cross-sectional area of each conductor.
(1-602 cm']
Supply
End
120 A
90 A
60 A
50 A
80 A
Fig. 13.10
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