A parallel-plate capacitor is connected to a power supply that maintains a fixed potential difference between the plates. (a) If a sheet of dielectric is then slid between the plates, what happens to (i) the electric field between the plates, (ii) the magnitude of charge on each plate, and (iii) the energy stored in the capacitor? (b) Now suppose that before the dielectric is inserted, the charged capacitor is disconnected from the power supply. In this case, what happens to (i) the electric field between the plates, (ii) the magnitude of charge on each plate, and (iii) the energy stored in the capacitor? Explain any differences between the two situations.
A parallel-plate capacitor is connected to a power supply that maintains a fixed potential difference between the plates. (a) If a sheet of dielectric is then slid between the plates, what happens to (i) the electric field between the plates, (ii) the magnitude of charge on each plate, and (iii) the energy stored in the capacitor? (b) Now suppose that before the dielectric is inserted, the charged capacitor is disconnected from the power supply. In this case, what happens to (i) the electric field between the plates, (ii) the magnitude of charge on each plate, and (iii) the energy stored in the capacitor? Explain any differences between the two situations.
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A parallel-plate capacitor is connected to a power supply that
maintains a fixed potential difference between the plates. (a) If a sheet of
dielectric is then slid between the plates, what happens to (i) the electric
field between the plates, (ii) the magnitude of charge on each plate, and
(iii) the energy stored in the capacitor? (b) Now suppose that before the
dielectric is inserted, the charged capacitor is disconnected from the power
supply. In this case, what happens to (i) the electric field between the
plates, (ii) the magnitude of charge on each plate, and (iii) the energy stored
in the capacitor? Explain any differences between the two situations.
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