Find the magnitude and direction of the net electric torque experienced by an electric dipole in a uniform electric field (Figure 1): Q = 5.0 µC d = 0.02m ϴ = 30° E = 100 N/C 2. On the spherical equipotential surfaces of a positive point charge, point A and C are located on the same surface while point B is located on another one. If the potential difference is 3.00 V between the surfaces where points A and B ar
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1. Find the magnitude and direction of the net electric torque experienced by an electric dipole in a uniform electric field (Figure 1):
Q = 5.0 µC
d = 0.02m
ϴ = 30°
E = 100 N/C
2. On the spherical equipotential surfaces of a positive point charge, point A and C are located on the same surface while point B is located on another one. If the potential difference is 3.00 V between the surfaces where points A and B are located, what is the work done by the electric field in moving a positive test charge (+q) from A to B, and then to C?
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