A 4.0 µF capacitor is charged to 20 V and a 6.0 µF capacitor charged to 24 V. The capacitors disconnected from any power sources, and are connected to each other, with the positive plate of each connected to the negative plate of the other. a. Draw a clear physics diagram of the problem. b. What is the total charge stored on the capacitors after they are connected? c. What is the potential across each capacitor after they are connected? d. What is the magnitude of the final electric charge on a plate of the 6.0 µF capacitor?
A 4.0 µF capacitor is charged to 20 V and a 6.0 µF capacitor charged to 24 V. The capacitors disconnected from any power sources, and are connected to each other, with the positive plate of each connected to the negative plate of the other. a. Draw a clear physics diagram of the problem. b. What is the total charge stored on the capacitors after they are connected? c. What is the potential across each capacitor after they are connected? d. What is the magnitude of the final electric charge on a plate of the 6.0 µF capacitor?
Chapter8: Capacitance
Section: Chapter Questions
Problem 62P: When a 360-nF air capacitor is connected to a power supply, the energy stored in the capacitor is...
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A 4.0 µF capacitor is charged to 20 V and a 6.0 µF capacitor charged to 24 V. The
capacitors disconnected from any power sources, and are connected to each other,
with the positive plate of each connected to the negative plate of the other.
a. Draw a clear physics diagram of the problem.
b. What is the total charge stored on the capacitors after they are
connected?
c. What is the potential across each capacitor after they are
connected?
d. What is the magnitude of the final electric charge on a plate of the
6.0 µF capacitor?
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