In the circuit shown in the figure, the switch #2 can be toggled to either position a or b. In position a, and with switch #1 also closed, the inductor (L) and resistor are connected to the source of emf ( &= 16 V). At the moment the switch closes, current begins to flow in the circuit. Given that L = 230 mH and R = 60 2, What is the time constant (7) that describes this charging process? Note that 1 mH = 10-³ H. T= What is the final current flowing in the circuit (after switch #2 is closed and many time constants have passed)? I = S t₁ The time to reach one-half the final current is related to the time constant (- In (¹1) ₁ 2 How long would it take (after the switch is closed) for the current to reach one-half its final value? = A S S₁ switch E S₂ switch bo i R = .693T).. T =

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 in the figure, the switch #2 can be toggled to either position a or b. In position
a, and with switch #1 also closed, the inductor (L) and resistor are connected to the source of emf (
&= 16 V). At the moment the switch closes, current begins to flow in the circuit. Given that L =
230 mH and R = 60 2, What is the time constant (7) that describes this charging process? Note
that 1 mH =
10-³ H.
T=
What is the final current flowing in the circuit (after switch #2 is closed and many time constants
have passed)?
I =
S
t₁
The time to reach one-half the final current is related to the time constant (- In
(¹) ₁
2
How long would it take (after the switch is closed) for the current to reach one-half its final value?
=
A
S
S₂
switch
61
bi i
switch
S₁
= .693T)..
T =
Transcribed Image Text:In the circuit shown in the figure, the switch #2 can be toggled to either position a or b. In position a, and with switch #1 also closed, the inductor (L) and resistor are connected to the source of emf ( &= 16 V). At the moment the switch closes, current begins to flow in the circuit. Given that L = 230 mH and R = 60 2, What is the time constant (7) that describes this charging process? Note that 1 mH = 10-³ H. T= What is the final current flowing in the circuit (after switch #2 is closed and many time constants have passed)? I = S t₁ The time to reach one-half the final current is related to the time constant (- In (¹) ₁ 2 How long would it take (after the switch is closed) for the current to reach one-half its final value? = A S S₂ switch 61 bi i switch S₁ = .693T).. T =
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