1. What is the magnitude and direction of the electric field at 0.25 m from a -5.6x106 C point charge?

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1. What is the magnitude and direction of the electric field at 0.25 m from a -5.6x106 C point
charge?
2. Four point charges are usually separated by 1.00 m in air as shown below. If q1= 3.0 nC, q2=
-4.0 nC, q3= 2.0 nC, and q4= -5 nC, what is the electric field at a point halfway between q2
and q3?
1.00 m
1.00 m
1.00 m
91
92
93
94
3. Four equal charges of 2.0x106 C are situated at the corners of a square of side 1.00 m. Find
the electric field at the center of the square.
4. A uniform electric field 5 000 N/C passing through a
flat square area 2 m². Determine the electric flux. As
shown in the figure at the right.
5. What is the electric flux through a sphere that has a
radius of 1 m and carries a charge of +5µC at its
A
e = 60
center?
E
6. A uniform electric field 8 000 N/C passing through a
flat square area 10 m². Determine the electric flux.
7. A solid ball with 0.5 meters radius has +10 µC electric
charge in its center. Determine the electric flux pass
through the solid ball.
1963
8.
Figure from the left shows six point
charges that all lie in the same plane. Five
Gaussian surfaces – S1, S2, S3, S3, S4 and Ss, -
each enclose part of this plane, and Fig. 7 shows
the intersection of each surface with the plane.
Rank these five surfaces in order of the electric
+50 μC)
SA7.0 µC
49.0 µC
S5
flux through them, fro
most positive to most
negative. Show your solution.
+8.0 µC
+1.0 μC
10.0 μC
Transcribed Image Text:1. What is the magnitude and direction of the electric field at 0.25 m from a -5.6x106 C point charge? 2. Four point charges are usually separated by 1.00 m in air as shown below. If q1= 3.0 nC, q2= -4.0 nC, q3= 2.0 nC, and q4= -5 nC, what is the electric field at a point halfway between q2 and q3? 1.00 m 1.00 m 1.00 m 91 92 93 94 3. Four equal charges of 2.0x106 C are situated at the corners of a square of side 1.00 m. Find the electric field at the center of the square. 4. A uniform electric field 5 000 N/C passing through a flat square area 2 m². Determine the electric flux. As shown in the figure at the right. 5. What is the electric flux through a sphere that has a radius of 1 m and carries a charge of +5µC at its A e = 60 center? E 6. A uniform electric field 8 000 N/C passing through a flat square area 10 m². Determine the electric flux. 7. A solid ball with 0.5 meters radius has +10 µC electric charge in its center. Determine the electric flux pass through the solid ball. 1963 8. Figure from the left shows six point charges that all lie in the same plane. Five Gaussian surfaces – S1, S2, S3, S3, S4 and Ss, - each enclose part of this plane, and Fig. 7 shows the intersection of each surface with the plane. Rank these five surfaces in order of the electric +50 μC) SA7.0 µC 49.0 µC S5 flux through them, fro most positive to most negative. Show your solution. +8.0 µC +1.0 μC 10.0 μC
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