At least one of the answers above is NOT Come Two Charged Plates We have two uniformly charged parallel plates, as shown. Their widths are much larger than the separation between the plates. The magnitudes of the charges on each are equal. a, b, and c indicate the regions just above, in between, and just below the plates, respectively. Conceptual Calculation a Note: In order to get credit for this problem all answers must be correct. b C Now let's suppose that the plates are squares with side length 1 cm, and that they have equal and opposite charges of magnitude 3.7 μC. What is the magnitude of the electric field in region b? field 20.904 N/C

We have two uniformly charged parallel plates, as shown. Their widths are much larger than the separation between the plates. The magnitudes of the charges on each are equal. a, b, and c indicate the regions just above, in between, and just below the plates, respectively. Now let's suppose that the plates are squares with side length 1 cm, and that they have equal and opposite charges of magnitude 3.7 μC. What is the magnitude of the electric field in region b?

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At least one of the answers above is NOT correct. Two Charged Plates We have two uniformly charged parallel plates, as shown. Their widths are much larger than the separation between the plates. The magnitudes of the charges on each are equal. a, b, and c indicate the regions just above, in between, and just below the plates, respectively. Conceptual Calculation a Note: In order to get credit for this problem all answers must be correct. b C Now let's suppose that the plates are squares with side length 1 cm, and that they have equal and opposite charges of magnitude 3.7 μC. What is the magnitude of the electric field in region b? field = 20.904 N/C <