+ 30 to 3Ω t = 0 - Vs 2 mH fit fic -0.5 mF R₂ Is The switch is closed at t=0. Write the numerical expression for it (t) when R₂-12, Vs=16V and Is=9A. Use that equation to calculate the value of it (0.5μ) (or in other words plug in t=0.5μ sec into the equation) • Calculate it (0.5µ) = _A (write answer to the 4th decimal place or X.XXXX)
+ 30 to 3Ω t = 0 - Vs 2 mH fit fic -0.5 mF R₂ Is The switch is closed at t=0. Write the numerical expression for it (t) when R₂-12, Vs=16V and Is=9A. Use that equation to calculate the value of it (0.5μ) (or in other words plug in t=0.5μ sec into the equation) • Calculate it (0.5µ) = _A (write answer to the 4th decimal place or X.XXXX)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:+
3Ω
Vs
t=0
2 mH
it fic
:0.5 mF
R₂ Is
The switch is closed at t=0.
Write the numerical expression for it (t) when R₂=12N, Vs=16V and Is=9A. Use that equation
to calculate the value of it (0.5μ) (or in other words plug in t=0.5μ sec into the equation)
• Calculate i (0.5µ) =
__A (write answer to the 4th decimal place or X.XXXX)
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Step 1: State the given data.
VIEWStep 2: Finding the initial conditions.
VIEWStep 3: Finding the differential equation for t>0.
VIEWStep 4: Finding the general solution of the current through the inductor.
VIEWStep 5: Finding the expression of the current through the inductor and i_L(0.5 us).
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