Three point charges, q₁ = +52 μC, q2 = -52 μC, and 93 = 45 μC, are fixed in place at the corners of a rectangle that is 2.5-cm tall and 5-cm wide as shown in the figure. 1. Electric Potential Energy Calculate the electric potential energy of the system of charges. UE = Submit 2. Electric Potential J Calculate the electric potential at point P. Vp = MV 2.5 cm Р 5.0 cm
Three point charges, q₁ = +52 μC, q2 = -52 μC, and 93 = 45 μC, are fixed in place at the corners of a rectangle that is 2.5-cm tall and 5-cm wide as shown in the figure. 1. Electric Potential Energy Calculate the electric potential energy of the system of charges. UE = Submit 2. Electric Potential J Calculate the electric potential at point P. Vp = MV 2.5 cm Р 5.0 cm
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![Three point charges, q₁ = +52 μC, q2 = -52 μC, and
93 = 45 μC, are fixed in place at the corners of a rectangle
that is 2.5-cm tall and 5-cm wide as shown in the figure.
1. Electric Potential Energy
Calculate the electric potential energy of the system of charges.
UE =
Submit
2. Electric Potential
J
Calculate the electric potential at point P.
Vp =
MV
2.5 cm
Р
5.0 cm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5aeaefbb-8161-4211-bb0a-b05d203dda3a%2F7b77a264-7fa7-4fb8-85c0-d7dffa2f2e03%2Fdu7aa3_processed.png&w=3840&q=75)
Transcribed Image Text:Three point charges, q₁ = +52 μC, q2 = -52 μC, and
93 = 45 μC, are fixed in place at the corners of a rectangle
that is 2.5-cm tall and 5-cm wide as shown in the figure.
1. Electric Potential Energy
Calculate the electric potential energy of the system of charges.
UE =
Submit
2. Electric Potential
J
Calculate the electric potential at point P.
Vp =
MV
2.5 cm
Р
5.0 cm
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