In the circuit shown in the figure, both switches are initially open. we close the switch S₁, and we observe that after a long time the ammeter reads a steady current of 5.6 A. a) Find the current shown by the ammeter as a function of time since we closed S₁. At this time, when the current becomes steady, we suddenly close switch S₂ and open S, at the same instant. At this time only the right-side circuit matters. b) What is the natural angular frequency of this circuit? c) Find the current in the circuit as a function of time. E I A S₁ 2.0 mH d) What is the maximum charge that the capacitor will receive? e) What is the maximum energy inside the inductor and the capacitor. Show that they are equal. f) What is the B filed inside the inductor at 0.2 milliseconds after we closed S2. g) S₂ If the capacitor is a parallel plate type with separation distance d = 0.1 mm, what is the E field inside the capacitor at t = 0.2 ms? 5.0 με
In the circuit shown in the figure, both switches are initially open. we close the switch S₁, and we observe that after a long time the ammeter reads a steady current of 5.6 A. a) Find the current shown by the ammeter as a function of time since we closed S₁. At this time, when the current becomes steady, we suddenly close switch S₂ and open S, at the same instant. At this time only the right-side circuit matters. b) What is the natural angular frequency of this circuit? c) Find the current in the circuit as a function of time. E I A S₁ 2.0 mH d) What is the maximum charge that the capacitor will receive? e) What is the maximum energy inside the inductor and the capacitor. Show that they are equal. f) What is the B filed inside the inductor at 0.2 milliseconds after we closed S2. g) S₂ If the capacitor is a parallel plate type with separation distance d = 0.1 mm, what is the E field inside the capacitor at t = 0.2 ms? 5.0 με
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Our experts need more information to provide you with a solution. The value of either R or E is required to give a complete equation in part a). Also, the dimensions of the inductor are necessary to solve part f) Please resubmit your question, making sure it's detailed and complete. We've credited a question to your account.
Your Question:
Transcribed Image Text:In the circuit shown in the figure, both switches are initially open. we close the switch S₁, and we observe that
after a long time the ammeter reads a steady current of 5.6 A.
a)
Find the current shown by the ammeter as a function of
time since we closed S₁.
At this time, when the current becomes steady, we suddenly close switch S₂
and open S, at the same instant. At this time only the right-side circuit matters.
b)
What is the natural angular frequency of this circuit?
c) Find the current in the circuit as a function of time.
E
I
A
S₁
2.0 mH
d)
What is the maximum charge that the capacitor will receive?
e)
What is the maximum energy inside the inductor and the capacitor. Show that they are equal.
f) What is the B filed inside the inductor at 0.2 milliseconds after we closed S2.
g)
S₂
If the capacitor is a parallel plate type with separation distance d = 0.1 mm, what is the E field inside the
capacitor at t = 0.2 ms?
5.0 με
