2c. An infinite sheet charge with a uniform surface charge density exists in space. A cylindrical shell is placed such that the sheet goes through its center, slicing through its circular cross-section. The radius of the circular cross-section is 0.450 m and the length of the cylinder is 0.980 m. If the net electric field flux through the cylinder is 1.25 x 106 N m²/C, what is the surface charge density of the sheet?
2c. An infinite sheet charge with a uniform surface charge density exists in space. A cylindrical shell is placed such that the sheet goes through its center, slicing through its circular cross-section. The radius of the circular cross-section is 0.450 m and the length of the cylinder is 0.980 m. If the net electric field flux through the cylinder is 1.25 x 106 N m²/C, what is the surface charge density of the sheet?
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Transcribed Image Text:2c. An infinite sheet charge with a uniform surface charge density exists in space.
A cylindrical shell is placed such that the sheet goes through its center, slicing
through its circular cross-section. The radius of the circular cross-section is 0.450
m and the length of the cylinder is 0.980 m. If the net electric field flux through the
cylinder is 1.25 x 106 N m²/C, what is the surface charge density of the sheet?
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