the time constant of the RC circuit. e capacitor is being charged, what is the potential difference of the e closing the circuit? ider the capacitor is fully charged, such that it has the same potenti ery. How long will it take to discharge the capacitor to a point that t % of the original current's value? (Note: the original current's value ent when the circuit was first closed.)
the time constant of the RC circuit. e capacitor is being charged, what is the potential difference of the e closing the circuit? ider the capacitor is fully charged, such that it has the same potenti ery. How long will it take to discharge the capacitor to a point that t % of the original current's value? (Note: the original current's value ent when the circuit was first closed.)
Chapter10: Direct-current Circuits
Section: Chapter Questions
Problem 68AP: A circuit contains a D-cell battery, a switch, a 20- resistor, and three 20-mF capacitors. The...
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![Question: A RC circuit has three components in it: a 12 V battery, a 225 microFarad (225 µF) capacitor,
and a 72 kiloOhm (72 k2) resistor.
a) Find the time constant of the RC circuit.
b) If the capacitor is being charged, what is the potential difference of the capacitor 22 seconds
after closing the circuit?
c) Consider the capacitor is fully charged, such that it has the same potential difference as the
battery. How long will it take to discharge the capacitor to a point that the current in the circuit
is 50% of the original current's value? (Note: the original current's value was the value of
current when the circuit was first closed.)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc638e160-9695-463c-9ffa-b20ca352bf45%2F48dcc793-d953-4611-9a9c-9ed48ff06b68%2F29uucvp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question: A RC circuit has three components in it: a 12 V battery, a 225 microFarad (225 µF) capacitor,
and a 72 kiloOhm (72 k2) resistor.
a) Find the time constant of the RC circuit.
b) If the capacitor is being charged, what is the potential difference of the capacitor 22 seconds
after closing the circuit?
c) Consider the capacitor is fully charged, such that it has the same potential difference as the
battery. How long will it take to discharge the capacitor to a point that the current in the circuit
is 50% of the original current's value? (Note: the original current's value was the value of
current when the circuit was first closed.)
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