Q2 is 4R, the distance from Q2 to Q3 is 5R and the distance from Q1 to Q3 is 3R. (Q1 = 10C, Q2 = 5C and Q3 = -12C) Q1 = 100 A 4R •Q2 = 50 3R SR 03 =-120 3. Using the figure in problem 2, determine the electric field intensity midway Q3 and Q2. 4. Using the circuit below, determine the following:
Q2 is 4R, the distance from Q2 to Q3 is 5R and the distance from Q1 to Q3 is 3R. (Q1 = 10C, Q2 = 5C and Q3 = -12C) Q1 = 100 A 4R •Q2 = 50 3R SR 03 =-120 3. Using the figure in problem 2, determine the electric field intensity midway Q3 and Q2. 4. Using the circuit below, determine the following:
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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Create a detailed solution by Identifying the Given, Requirements, Figure/s, and FBD's (Justify your answers if deemed necessary). Box your final answers.
Transcribed Image Text:1. Find the electric field at point A produced by charges Q1 = -4C and Q2 = 16C
Q1 = -4C
Q2 = 160
В
C
d.
d.
2. Determine the Force exerted by charge Q1 and Q2 on charge Q3. The distance from Q1 to
Q2 is 4R, the distance from Q2 to Q3 is 5R and the distance from Q1 to Q3 is 3R. (Q1 = 10C,
Q2 = 5C and Q3 = -12C)
01 = 10C
B
A
4R
Q2 = 50
3R
5R
c Q3 = -120
3. Using the figure in problem 2, determine the electric field intensity midway Q3 and Q2.
4. Using the circuit below, determine the following:
a. the voltage-drop across R1
b. the Power taken by R4
c. the current that passes through R3
R,
a
b
E 13 V
R1 1.0 2
E
R2 3.0 2
+
R3 2.0 2
f
R,
R1 3.0 2
wW
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