A 2.50-μF capacitor is charged to 757 V and a 6.80-μF capacitor is charged to 562 V. These capacitors are then disconnected from their batteries. Next the positive plates are connected to each other and the negative plates are connected to each other. What will be the potential difference across each and the charge on each? [Hint : Charge is conserved.] Determine the charge across the first capacitor. Determine the charge across the second capacitor.
A 2.50-μF capacitor is charged to 757 V and a 6.80-μF capacitor is charged to 562 V. These capacitors are then disconnected from their batteries. Next the positive plates are connected to each other and the negative plates are connected to each other. What will be the potential difference across each and the charge on each? [Hint : Charge is conserved.] Determine the charge across the first capacitor. Determine the charge across the second capacitor.
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![A 2.50-µF capacitor
is charged to 757 V and a
6.80-μF capacitor is charged to 562 V. These
capacitors are then disconnected from their
batteries. Next the positive plates are
connected to each other and the negative
plates are connected to each other. What will
be the potential difference across each and the
charge on each? [Hint: Charge is conserved.]
Determine the charge across the first capacitor.
Determine the charge across the second
capacitor.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7421e9d5-7097-49e2-b59a-b21b3673d69e%2F68f3f72c-6976-4494-be1c-e8295a772944%2F59fe3y8_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A 2.50-µF capacitor
is charged to 757 V and a
6.80-μF capacitor is charged to 562 V. These
capacitors are then disconnected from their
batteries. Next the positive plates are
connected to each other and the negative
plates are connected to each other. What will
be the potential difference across each and the
charge on each? [Hint: Charge is conserved.]
Determine the charge across the first capacitor.
Determine the charge across the second
capacitor.
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