*Ē(x,y) 2а h Perfect electric conductor An infinite line conductor with radius a=23 mm lies along the z-axis and is located at Xo=108 cm from the y-axis and h=85 cm above the perfect electric conductor half- space that occupies the region ys0 as shown in the figure. The line has charge density of q=15.5 nC/m. A The magnitude of the vector from line center to point (403,388) cm is RD shown in the fiqure the line has density of q=15.5 nC/m. S The magnitude of the vector from line center to point (403,388) cm is R= m Electric field in V/m at (x,y)=(313,338) cm is E= ay Magnitude of electric field in V/m at (x,y)=(403,-388) cm is E=
*Ē(x,y) 2а h Perfect electric conductor An infinite line conductor with radius a=23 mm lies along the z-axis and is located at Xo=108 cm from the y-axis and h=85 cm above the perfect electric conductor half- space that occupies the region ys0 as shown in the figure. The line has charge density of q=15.5 nC/m. A The magnitude of the vector from line center to point (403,388) cm is RD shown in the fiqure the line has density of q=15.5 nC/m. S The magnitude of the vector from line center to point (403,388) cm is R= m Electric field in V/m at (x,y)=(313,338) cm is E= ay Magnitude of electric field in V/m at (x,y)=(403,-388) cm is E=
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:"Ē(x,y)
2a
|h
Perfect electric conductor
An infinite line conductor with radius a=23
mm lies along the z-axis and is located at
Xo=108 cm from the y-axis and h=85 cm
above the perfect electric conductor half-
space that occupies the region ys0 as
shown in the figure. The line has charge
density of q=15.5 nC/m.
A The magnitude of the vector from line
center to point (403,388) cm is R=
shown in the fiqure the line has
density of q=15.5 nC/m.
A The magnitude of the vector from line
center to point (403,388) cm is R=
Electric field in V/m at (x,y)=(313,338)
cm is E=
az
A Magnitude of electric field in V/m at
(x,y)=(403,-388) cm is E=
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