Given the potential V = 10 sin 0 cos ø, (a) Find the electric flux density D at (2, a/2, 0). (b) Calculate the work done in moving a 10-µC charge from point A(1, 30°, 120°) to B(4, 90°, 60°). (a) 44 ar pC/m^2 (b) 56 Joule (a) 22.1 ar pC/m^2 (b) 28.125 * 10^-6 Joule (a) 22.1 az pC/m^2 (b) 22.15 Joule (a) 33.1 ar pC/m^2 (b) 88.125 * 10^-6 Joule O O
Given the potential V = 10 sin 0 cos ø, (a) Find the electric flux density D at (2, a/2, 0). (b) Calculate the work done in moving a 10-µC charge from point A(1, 30°, 120°) to B(4, 90°, 60°). (a) 44 ar pC/m^2 (b) 56 Joule (a) 22.1 ar pC/m^2 (b) 28.125 * 10^-6 Joule (a) 22.1 az pC/m^2 (b) 22.15 Joule (a) 33.1 ar pC/m^2 (b) 88.125 * 10^-6 Joule O O
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:Given the potential V =
10
sin 0 cos ø,
(a) Find the electric flux density D at (2, a/2, 0).
(b) Calculate the work done in moving a 10-µC charge from point A(1, 30°, 120°) to
B(4, 90°, 60°).
(a) 44 ar pC/m^2 (b) 56 Joule
(a) 22.1 ar pC/m^2 (b) 28.125 *
10^-6 Joule
(a) 22.1 az pC/m^2 (b) 22.15 Joule
(a) 33.1 ar pC/m^2 (b) 88.125 *
10^-6 Joule
O O
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