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The figure below shows a box-shaped closed surface with one it's edges lying on the x-axis, and its left edge located at x = a. The sides have lengths a = b = 0.400 m and c = 0.800 m. Throughout the region, there is a nonuniform electric field is given by E→ = (1.10 N/C + (3.40 N/(m2⋅C))x2) i^, where x is in meters. +x-direction. (a) What is the net electric flux through the closed surface (in N⋅m2/C)? N⋅m2 /C (b) What is the net charge enclosed by the surface (in C)? C

The figure below shows a box-shaped closed surface with one it's edges lying on the x-axis, and its left edge located at x = a. The sides have lengths a = b = 0.400 m and c = 0.800 m. Throughout the region, there is a nonuniform electric field is given by E→ = (1.10 N/C + (3.40 N/(m2⋅C))x2) i^, where x is in meters. +x-direction. (a) What is the net electric flux through the closed surface (in N⋅m2/C)? N⋅m2 /C (b) What is the net charge enclosed by the surface (in C)? C

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The figure below shows a box-shaped closed surface with one it's edges lying on the x-axis, and its left edge located at x = a. The sides have lengths a = b = 0.400 m and c = 0.800 m. Throughout the region, there is a nonuniform electric field is given by E→ = (1.10 N/C + (3.40 N/(m2⋅C))x2) i^, where x is in meters. +x-direction. (a) What is the net electric flux through the closed surface (in N⋅m2/C)? N⋅m2 /C (b) What is the net charge enclosed by the surface (in C)? C

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