Three point charges are located as shown in the figure.9=-5 x 10-12 IC) and d = 6 (cm]2=-4 x 10-2 (C] and d; =9 cm]9 =5x 10"12 (C] and dy -3 (em]daCalculate E, the magnitude of the electrica.ifield created by the charge q at the origin.92[N/C)d2d,b.What is the direction of E1, the electricfield created by the charge q at the origin.oiCalculate E, the magnitude of the electric field created by the charge q; at the origin.E -IN/C)What is the direction of E, the electric field created by the charge q; at the origin.Oie 3 points] Calculate E, the magnitude of the electric field created by the charge q at the originEy =[N/C]E. 12 points] What is the direction of E, the elactrie fald.craatad h tha chareCalculate Es, the magnitude of the electric field created by the charge gs at the originE =IN/C)What is the direction of E1, the electric field created by the charge q at the origin.oigt.Suppose thatE-3i +3 IN/C)E 2i 1 N/C)Calculate the net electric field vector created at the origin (DO NOT USE THE VALUES FOUND IN THEPREVIOUS PARTS).Ehe.and the total force applied on the charge q will haveA charge go equal to-1.6 x 10- is located at the origin. The net electric field at the originOsame directionOopposite directionA charge go equal to -1.6 x 10- is located at the origin, where the net electric field vector issupposed to be E-4i+4 IN/Calculate the net electric force vector created on go and select its unit (DO NOT USE THE VALUES FOUNDIN THE PREVIOUS PARTS)

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Three point charges are located as shown in the figure 9-5 x 10-12 IC) and di 6 lem] -4 x 10-12 IC] and dy 9 (cm) 5x 10-12 (C) and dy -3 (cm] d, Calculate E, the magnitude of the electric ai field created by the charge q at the origin. E, O IN/C)

Three point charges are located as shown in the figure 9-5 x 10-12 IC) and di 6 lem] -4 x 10-12 IC] and dy 9 (cm) 5x 10-12 (C) and dy -3 (cm] d, Calculate E, the magnitude of the electric ai field created by the charge q at the origin. E, O IN/C)

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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Concept explainers

Compensation Techniques

The compensation techniques are the methods that are employed in the electrical control systems to enhance the performance of the system. The performance are generally affected by the factors like lag in the compensating devices, slow response of the system of the components like sensors used in the control system. The basic compensation technique involves lag compensation, lead compensation or the combination of the both.

Question

Three point charges are located as shown in the figure.
9=-5 x 10-12 IC) and d = 6 (cm]
2=-4 x 10-2 (C] and d; =9 cm]
9 =5x 10"12 (C] and dy -3 (em]
da
Calculate E, the magnitude of the electric
a.i
field created by the charge q at the origin.
92
[N/C)
d2
d,
b.
What is the direction of E1, the electric
field created by the charge q at the origin.
oi
Calculate E, the magnitude of the electric field created by the charge q; at the origin.
E -
IN/C)
What is the direction of E, the electric field created by the charge q; at the origin.
Oi
e 3 points] Calculate E, the magnitude of the electric field created by the charge q at the origin
Ey =
[N/C]
E. 12 points] What is the direction of E, the elactrie fald.craatad h tha chare
Calculate Es, the magnitude of the electric field created by the charge gs at the origin
E =
IN/C)
What is the direction of E1, the electric field created by the charge q at the origin.
oi
gt.
Suppose that
E-3i +3 IN/C)
E 2i 1 N/C)
Calculate the net electric field vector created at the origin (DO NOT USE THE VALUES FOUND IN THE
PREVIOUS PARTS).
E
he.
and the total force applied on the charge q will have
A charge go equal to-1.6 x 10- is located at the origin. The net electric field at the origin
Osame direction
Oopposite direction
A charge go equal to -1.6 x 10- is located at the origin, where the net electric field vector is
supposed to be E-4i+4 IN/
Calculate the net electric force vector created on go and select its unit (DO NOT USE THE VALUES FOUND
IN THE PREVIOUS PARTS)

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