In Figure P15-4, (L_{1}=L_{2}=5 mathrm{mH}, M=2 mathrm{mH}, k=0.4), and (i_{mathrm{S}}(t)=120 sin 377 t mathrm{~A}). (a) Solve for
Question:
In Figure P15-4, \(L_{1}=L_{2}=5 \mathrm{mH}, M=2 \mathrm{mH}, k=0.4\), and \(i_{\mathrm{S}}(t)=120 \sin 377 t \mathrm{~A}\).
(a) Solve for \(v_{1}(t)\) and \(v_{2}(t)\) when the output terminals are open circuited ( \(\left.i_{2}(t)=0ight)\).
(b) Find the Thévenin Equivalent looking into the output terminals.
(c) Use Multisim to verify your results.
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a b c In the figure the coupling is subtractive so the appropriate eq...View the full answer
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Related Book For 
The Analysis And Design Of Linear Circuits
ISBN: 9781119913023
10th Edition
Authors: Roland E. Thomas, Albert J. Rosa, Gregory J. Toussaint
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