5. In the figure below, point P is at distance d₁= 4.0 m from particle 1 (1 = - 4.0 C) and distance d2 = 2.0 m from particle 2 (92= + 4.0 C), with both particles fixed in place. How much work do we do to bring a particle of charge 3 = + 2.0 C from infinity to P? Take V to be zero at infinity. 91 d 92 d 93

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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5. In the figure below, point P is at distance d₁ = 4.0 m from particle 1 (₁ = - 4.0
C) and distance d₂ = 2.0 m from particle 2 (q2 = + 4.0 µC), with both particles
fixed in place. How much work do we do to bring a particle of charge 93 = +
2.0 C from infinity to P? Take V to be zero at infinity.
y
91
L
d
92
d
93
Transcribed Image Text:5. In the figure below, point P is at distance d₁ = 4.0 m from particle 1 (₁ = - 4.0 C) and distance d₂ = 2.0 m from particle 2 (q2 = + 4.0 µC), with both particles fixed in place. How much work do we do to bring a particle of charge 93 = + 2.0 C from infinity to P? Take V to be zero at infinity. y 91 L d 92 d 93
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