In the circuit in the figure below, the emf equals 5.78 V and has negligible internal resistance. The capacitance equals 1.45 µF and the resistance equals 1.95 MN. Switch S has been closed for a long time. Switch S is opened. After a time interval equal to one time constant of the circuit has elapsed, find the following. (a) the charge on the capacitor plate on the right (b) the rate at which the charge is increasing pC/s (c) the current µC/s (d) the power supplied by the battery (e) the power delivered to the resistor (f) the rate at which the energy stored in the capacitor is increasing pw

College Physics
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Chapter1: Units, Trigonometry. And Vectors
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In the circuit in the figure below, the emf equals 5.78 V and has negligible internal resistance. The capacitance equals 1.45 µF and the resistance equals 1.95 MN. Switch S
has been closed for a long time. Switch S is opened. After a time interval equal to one time constant of the circuit has elapsed, find the following.
(a) the charge on the capacitor plate on the right
(b) the rate at which the charge is increasing
µC/s
(c) the current
µC/s
(d) the power supplied by the battery
(e) the power delivered to the resistor
(f) the rate at which the energy stored in the capacitor is increasing
pw
R
Transcribed Image Text:In the circuit in the figure below, the emf equals 5.78 V and has negligible internal resistance. The capacitance equals 1.45 µF and the resistance equals 1.95 MN. Switch S has been closed for a long time. Switch S is opened. After a time interval equal to one time constant of the circuit has elapsed, find the following. (a) the charge on the capacitor plate on the right (b) the rate at which the charge is increasing µC/s (c) the current µC/s (d) the power supplied by the battery (e) the power delivered to the resistor (f) the rate at which the energy stored in the capacitor is increasing pw R
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