Three uniform charge distributions are present in a region: an infinite sheet of charge, a finite line charge, and a ring of charge. The infinite sheet of charge at (x, -3, z), where x and z spans from negative to positive infinity, has a charge density ps = 5 nC/m². The finite line charge at (0, -1, z), where z ranges from -2 to 2, has a charge density PL = -4 nC/m. Finally, the ring of charge, with a radius of 3m and charge density PL = 2 nC/m, is parallel to the xz-plane centered at (0, 4, 0). All coordinates are in meters. Use the value k - 9 x 10⁹ in your solutions and - answers. Determine the magnitude of the electric field due to the ring of charge only at (0, 2, 0). (4 Decimal places)
Three uniform charge distributions are present in a region: an infinite sheet of charge, a finite line charge, and a ring of charge. The infinite sheet of charge at (x, -3, z), where x and z spans from negative to positive infinity, has a charge density ps = 5 nC/m². The finite line charge at (0, -1, z), where z ranges from -2 to 2, has a charge density PL = -4 nC/m. Finally, the ring of charge, with a radius of 3m and charge density PL = 2 nC/m, is parallel to the xz-plane centered at (0, 4, 0). All coordinates are in meters. Use the value k - 9 x 10⁹ in your solutions and - answers. Determine the magnitude of the electric field due to the ring of charge only at (0, 2, 0). (4 Decimal places)
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