Solving a Parallel-Plate Air-Filled Capacitor Problem

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The discussion revolves around solving a problem related to a parallel-plate air-filled capacitor, specifically calculating the electric field between the plates. The initial approach used the formula for electric field based on charge density, but it was incorrect due to the complexity of the calculations. A simpler method was suggested, using the relationship between potential difference, electric field, and distance, leading to a more straightforward solution. The user found this alternative approach effective and acknowledged a mistake in their earlier calculations. Overall, the thread highlights the importance of using the correct formulas for capacitor problems.
mr_coffee
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Hello everyone. I can't get the 2nd to last question on this problem...
It says:
A parallel-plate air-filled capacitor having area 38 cm2 and plate spacing 2.0 mm is charged to a potential difference of 450 V. Find the following values.
(a) the capacitance
correct check mark pF
(b) the magnitude of the charge on each plate
correct check mark nC
(c) the stored energy
correct check mark µJ
(d) the electric field between the plates
wrong check mark V/m
(e) the energy density between the plates
J/m3

So I figured because the capacitor is a conductor, i know that the e-field just outside a conductor is E = Area Charge Density/Eo or
E = (Q/A)/Eo;
E = (7.57nC)/(.0038cm^2)/8.85e-12 = 225096639 N/C.
Which was wrong, any ideas why? Thanks.
 
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mr_coffee said:
Hello everyone. I can't get the 2nd to last question on this problem...
It says:
A parallel-plate air-filled capacitor having area 38 cm2 and plate spacing 2.0 mm is charged to a potential difference of 450 V. Find the following values.
(a) the capacitance
correct check mark pF
(b) the magnitude of the charge on each plate
correct check mark nC
(c) the stored energy
correct check mark µJ
(d) the electric field between the plates
wrong check mark V/m
(e) the energy density between the plates
J/m3

So I figured because the capacitor is a conductor, i know that the e-field just outside a conductor is E = Area Charge Density/Eo or
E = (Q/A)/Eo;
E = (7.57nC)/(.0038cm^2)/8.85e-12 = 225096639 N/C.
Which was wrong, any ideas why? Thanks.


I didn't check the numbers but the approach should be (about) right.
However, you're making life difficult: potential is E-field integrated over distance. Now in a parallel plate cap, the E-field is supposed to be constant, so this reduces to V = E x distance. You know the potential difference over the plates and their distance...
 
THank you so much! that worked great and was much easier, i must have messed up in the calculations! :biggrin:
 
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