Calculate value of the electric potential at a point which is 15 cm away from the point charge of magnitude 2 x 108 C. Assume that 1/4nE0 = 9 x 10° m/F.
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Q: Calculate the value of the electric potential at a point which is 15 cm away from the point charge…
A: Charge (Q) = 2 × 10−8 C distance (r) = 15 cm = 0.15 m 1/4πε0 = 9 × 109 m/F
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A: The answer is below
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A: a) At the origin, V (0,0) = 14πεoq1x1+q2x2 = 9 x 109 x 5.3 x 10-61.25 x 10-2+-2.38 x 10-61.8 x 10-2…
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Q: Calculate the electric potential a distance 5.6 x 10^-4 km from a point charge of –3.6 x 10^–4 C.
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Q: Three point charges are fixed at the corners of the shown triangle where q1=q2=-54.00 nC and…
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Q: Calculate the electric potential a distance 5.6 x 104 km from a point charge of -3.6 × 10 C.
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A: electric potential V=kqr
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Q: PROBLEM 1: Two point charges Qi=+50 µC and Q2=-30 µC are 70 cm apart. What is the potential at a…
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Q: Two point charges, +4.00 μC and -6.50 μC, are separated by 2.60 m. What is the electric potential…
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Q: Two point charges, +2.70 μC and -8.60 μC, are separated by 1.50 m. What is the electric potential…
A: Given value--- charge q1 = 2.70 micro C. charge q2 = -8.60 micro C. separation = 1.5 m. We have…
Q: potential
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A: The given data are: V1=158.2 VV2=61.2 Vr=2.9 m Here, V1 denotes the potential of the first surface,…
Q: A point charge of -8.2 μC is at the origin. What is the electric potential at (3.0 m, - 3.0 m)?
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Q: Four equal charges 4 µC are placed at the corners of a rectangle of sides 6 cm and 8 cm. Determine…
A: we will use the formula of electric field due to the individual charges and then we will add them…
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A: Given data: The charges are, q1=-4 μCq2=3 μCq3=-2 μCq4=5 μC The distance are, d1=8 cm=0.08 md2=6…
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