The square surface shown in the figure measures 4.3 mm on each side. It is immersed in a uniform electric field with magnitude E- 1900 N/C and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though th surface were one face of a box. Calculate the electric flux through the surface. Normal-
The square surface shown in the figure measures 4.3 mm on each side. It is immersed in a uniform electric field with magnitude E- 1900 N/C and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though th surface were one face of a box. Calculate the electric flux through the surface. Normal-
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Transcribed Image Text:The square surface shown in the figure measures 4.3 mm on each side. It is immersed in a uniform electric field with magnitude E-
1900 N/C and with field lines at an angle of 35° with a normal to the surface, as shown. Take that normal to be "outward," as though th
surface were one face of a box. Calculate the electric flux through the surface.
Normal-
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