A charge of 6x 107 Cis transferred from infinity to point B. If the work done by the electric force to do this is 1.20 x 105 J, what is the magnitude of the potential at point B?
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Q: electric potential
A: Given: Four charges as q1=+2.90 μC, q2=-3.90 μC, q3=-4.70 μC and q4=-8.60 μC Sides of rectangle are…
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A: The change in electric potential can be given as
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A: q1 = 6.97 μC q2 = 7.93 μC r = 3.71 m
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A: Given: Sides are a=38 cm and b=54 cm Charges are q1=-2.6 μC, q2=3.6 μC, q3=4 μC, q4=-8 μC
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Q: potential
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A: As we know, W= qV we can write this equation as:
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A: Given information: Here, λ is the linear charge density.
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Q: A charge of uniform density (51 nC/m) is distributed along the x axis from the origin to the point x…
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Q: A charge of uniform density (56 nC/m) is distributed along the x axis from the origin to the point x…
A: Given information: Here, λ is the linear charge density.
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