Three particles and three Gaussian surfaces are shown in the figure below. All the surfaces are three-dimensional. Use the net electric flux through each surface indicated on the figure to find the charge of each particle. (Assume PA = -13.0 N · m2/C, ¤g = 32.0 N · m2/c, and c = 94.0 N - m?/C.) Q1 = Q2 = Q3 = C Q3
Three particles and three Gaussian surfaces are shown in the figure below. All the surfaces are three-dimensional. Use the net electric flux through each surface indicated on the figure to find the charge of each particle. (Assume PA = -13.0 N · m2/C, ¤g = 32.0 N · m2/c, and c = 94.0 N - m?/C.) Q1 = Q2 = Q3 = C Q3
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Transcribed Image Text:Three particles and three Gaussian surfaces are shown in the figure below. All the surfaces are three-dimensional. Use the net electric flux through each surface
indicated on the figure to find the charge of each particle. (Assume PA = -13.0 N . m2/C, PB = 32.0 N · m2/c, and c = 94.0 N · m2/C.)
Q1 =
C
Q2 =
Q3 =
Q3
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