In the figure below, calculate the the electric potential at point P due to the three surrounding charged particles. Choices: 54.5 kV. 68.2 kV. 76.7 kV. 81.6 kV. 98.3 kV. In the figure below, what is the work done in bringing a charge of +6.11 μC from infinity to point P? Choices: 0.33 J. 0.42 J. 0.47 J. 0.50 J. 0.60 J.
In the figure below, calculate the the electric potential at point P due to the three surrounding charged particles. Choices: 54.5 kV. 68.2 kV. 76.7 kV. 81.6 kV. 98.3 kV. In the figure below, what is the work done in bringing a charge of +6.11 μC from infinity to point P? Choices: 0.33 J. 0.42 J. 0.47 J. 0.50 J. 0.60 J.
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In the figure below, calculate the the electric potential at point P due to the three surrounding charged particles.
Choices:
54.5 kV.
68.2 kV.
76.7 kV.
81.6 kV.
98.3 kV.
In the figure below, what is the work done in bringing a charge of +6.11 μC from infinity to point P?
Choices:
0.33 J.
0.42 J.
0.47 J.
0.50 J.
0.60 J.
![+7.45 μC
1.25 m /
| 1.25 m
P!
1.25 m
+2.75 μC
-1.72 μC](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb5a1500d-1af6-4249-811c-425477e9bd33%2F3cb43351-add2-4e38-8b4e-e976e3027516%2F480etih_processed.jpeg&w=3840&q=75)
Transcribed Image Text:+7.45 μC
1.25 m /
| 1.25 m
P!
1.25 m
+2.75 μC
-1.72 μC
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