TUTORIAL PROBLEMS1. A single phase transmission line has two parallel conductors 1.5 metres apart, the diameter of eachconductor being 0-5 cm. Calculate line to neutral capacitance for a line 80 km long.2. A 200 km, 3-phase transmission line has its conductors placed at the corners of an equilateral triangle of25 m side. The radius of each conductor is I em. Calculate :(1) line to neutral capacitance of the line,(i) charging current per phase if the line is maintained at 66 kV, s0 Hz.3. The three conductors A, B and C'of a 3-0 line are arranged in a horizontal plane with Dn = 2 m and Dac= 25 m. Find line-to-neutral capacitance per km if diameter of cach conductor is 1-24 cm. The conduc-tors are transposed at regular intervals.4. The three conductors of a 3-0 line are arranged at the corners of a right angled isosceles triangle. If eachequal side of this triangle is 2 m, find line-to-neutral capacitance per km. Take the diameter of eachconductor as 1-24 cm. The conductors are transposed at regular intervals.5. A 3-phase, 50 Hz, 132 kV overhead line has conductors placed in a horizontal plane 4-56 m apart.Conductor diameter is 22-4 mm. If the line length is 100 km, Calculate the charging current per phase,assuming complete transposition.(3-48 uF)1) 2-02 uF (ii) 24-2 AI(0-0091 uF/km)(0-0094 uF/km][21-345 A)6. Three conductors of a 3-phase overhead line are arranged in a horizontal plane 6 m apart. The diameterof each conductor is 1-24 cm. Find the capacitance of each conductor to neutral per 100 km of the line.[0-785 uF1

Since you posted the multiple questions, so I am solving 1st questions for you

TUTORIAL PROBLEMS 1. A single phase transmission line has two parallel conductors 1-5 metres apart, the diameter of each conductor being 05 cm. Calculate line to neutral capacitance for a line 80 km long. (3-48 uF)

TUTORIAL PROBLEMS 1. A single phase transmission line has two parallel conductors 1-5 metres apart, the diameter of each conductor being 05 cm. Calculate line to neutral capacitance for a line 80 km long. (3-48 uF)

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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