Q2 The circuit in Figure 3.2 is operating in the sinusoidal steady state. 20 Ω 400 mH 200 mH + 10 Ω 300 mH 50 μF iz Figure 3.2 Given VsI = 120 sine (100t + 90°) V and Vs2 80 sine(10ot) V, simulate the (a) steady state currents and voltage: i, iz and vo. Compare with your calculations (i.e., using mesh, nodal or superposition analysis). (b) Plot the steady state currents and voltage response.
Q2 The circuit in Figure 3.2 is operating in the sinusoidal steady state. 20 Ω 400 mH 200 mH + 10 Ω 300 mH 50 μF iz Figure 3.2 Given VsI = 120 sine (100t + 90°) V and Vs2 80 sine(10ot) V, simulate the (a) steady state currents and voltage: i, iz and vo. Compare with your calculations (i.e., using mesh, nodal or superposition analysis). (b) Plot the steady state currents and voltage response.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Q2
The circuit in Figure 3.2 is operating in the sinusoidal steady state.
20 2
400 mH
200 mH
all
all
10 Ω
300 mH
50 μF
iz
Figure 3.2
(a)
Given VsI
120 sine (100t + 90°) V and Vs2
80 sine(100t) V, simulate the
%3D
steady state currents and voltage: in, iz and vo. Compare with your calculations (i.e.,
using mesh, nodal or superposition analysis).
(b) Plot the steady state currents and voltage response.
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