Three capacitors having capacitances of 6.00, 6.00, and 3.00 µF, respectively, are connected in series across a 27.0 V potential difference. (a) What is the charge (in µC) on the 3.00 µF capacitor? (b) The capacitors are disconnected from the potential difference without allowing them to discharge. They are then reconnected in parallel with each other with the positively charged plates connected together. What is the voltage across each capacitor in the parallel combination (in V)? 6.00 µF capacitors ________ 3.00 µF capacitor __________
Three capacitors having capacitances of 6.00, 6.00, and 3.00 µF, respectively, are connected in series across a 27.0 V potential difference. (a) What is the charge (in µC) on the 3.00 µF capacitor? (b) The capacitors are disconnected from the potential difference without allowing them to discharge. They are then reconnected in parallel with each other with the positively charged plates connected together. What is the voltage across each capacitor in the parallel combination (in V)? 6.00 µF capacitors ________ 3.00 µF capacitor __________
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter20: Electric Potential And Capacitance
Section: Chapter Questions
Problem 42P
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Question
Three capacitors having capacitances of 6.00, 6.00, and 3.00 µF, respectively, are connected in series across a 27.0 V potential difference.
(a)
What is the charge (in µC) on the 3.00 µF capacitor?
(b)
The capacitors are disconnected from the potential difference without allowing them to discharge. They are then reconnected in parallel with each other with the positively charged plates connected together. What is the voltage across each capacitor in the parallel combination (in V)?
6.00 µF capacitors ________
3.00 µF capacitor __________
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