In the circuit shown below, switch closes at t=0 and capacitor is being charged. Battery supplies 3V and voltage drop across LED is 1.8V. Resistor R=22002 and capacitor C=1mF. How long does it take for capacitor to charge to its ultimate voltage? [express your answer in ms]
In the circuit shown below, switch closes at t=0 and capacitor is being charged. Battery supplies 3V and voltage drop across LED is 1.8V. Resistor R=22002 and capacitor C=1mF. How long does it take for capacitor to charge to its ultimate voltage? [express your answer in ms]
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![In the circuit shown below, switch closes at t=0 and capacitor is being charged.
Battery supplies 3V and voltage drop across LED is 1.8V.
Resistor R=22002 and capacitor C=1mF.
How long does it take for capacitor to charge to its ultimate voltage?
[express your answer in ms]
R=2202
3V
Answer:
+
4+
V₂
Ja
t=0
= C = 1,000 μ
t=0
NOT CHARGED
V₁=0 Q=0](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F050f4bfb-3eb3-48b8-884f-ad7ec9105a1e%2F14a41954-5927-4faf-86d9-3a922ec9ec97%2Fogkiw2u_processed.jpeg&w=3840&q=75)
Transcribed Image Text:In the circuit shown below, switch closes at t=0 and capacitor is being charged.
Battery supplies 3V and voltage drop across LED is 1.8V.
Resistor R=22002 and capacitor C=1mF.
How long does it take for capacitor to charge to its ultimate voltage?
[express your answer in ms]
R=2202
3V
Answer:
+
4+
V₂
Ja
t=0
= C = 1,000 μ
t=0
NOT CHARGED
V₁=0 Q=0
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