Vo R₁ ww Answer: 2.4us R3 t = 0 2pts] The switch above has been closed a long time before opening at t= 0. Element X can be a capacitor or inductor. Use V = 1.8V, R₁ = 62, R₂ = 2Q, and R3 = 42 throughout. a. Assume first that X is a capacitor with C = 40µF. What is the time constant for the voltage v after t = 0? 240.0 us X Answer: 0.0025s R₂ Answer: b. Assume now that X is an inductor with L = 15mH. What is the time constant for the current i after t = 0? ✓ + UX 2.500 ms c. If X is an inductor, then what is the current i through it at t=0? 163.6 MAX

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Just part C but please explain it well.

 

 

Vo
+
R₁
Answer: 2.4us
R3
Answer: 0.0025s
www
Answer:
R₂
t = 0
2pts] The switch above has been closed a long time before opening at t = 0. Element X can be a capacitor or inductor. Use V = 1.8V, R₁ = 62, R₂ = 2Q, and R3 = 42 throughout.
a. Assume first that X is a capacitor with C = 40µF. What is the time constant for the voltage v after t = 0?
240.0 us X
+
U X
b. Assume now that X is an inductor with L = 15mH. What is the time constant for the current i after t = 0?
✓
I
2.500 ms
c. If X is an inductor, then what is the current i through it at t=0?
163.6 mAX
Transcribed Image Text:Vo + R₁ Answer: 2.4us R3 Answer: 0.0025s www Answer: R₂ t = 0 2pts] The switch above has been closed a long time before opening at t = 0. Element X can be a capacitor or inductor. Use V = 1.8V, R₁ = 62, R₂ = 2Q, and R3 = 42 throughout. a. Assume first that X is a capacitor with C = 40µF. What is the time constant for the voltage v after t = 0? 240.0 us X + U X b. Assume now that X is an inductor with L = 15mH. What is the time constant for the current i after t = 0? ✓ I 2.500 ms c. If X is an inductor, then what is the current i through it at t=0? 163.6 mAX
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