500 N 1000 N 160 nF 100 mH R = 500 N, R2 = 1000 N, L = 100 mH, C = 160 nF, i,(t) = 4 cos 5000t mA i,(t) = 4 cos 5000t mA constant current source V,(t) Vc(t) ic(t) V,(t) i,(t) VR, (t) VR, (t) voltage on consțant current source voltage across capacitor current through the capacitor inductance voltage current flowing through inductance R = 500 NVvoltage across the resistor R2 = 1000 Q voltage across the resistor + 10* s Ic(s) H(s) = Ig(s) s2 + 104 s + 625. 105 What is the mathematical expression of the voltage Ic(t) in the steady (continuous) state? a) Ve(e) = 4,472 cos ( 5000r - 2 ) v b) Ve(t) = 3,5776 cos ( 5000t + ) v c) Ve(t) = 2 cos ( 5000t + d) Ve(e) = 4 cos ( 5000r - ) v 18,43 e) Vc(t) = 6,32455 cos ( 5000t V.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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500 N
1000 N
160 nF
100 mH
R = 500 N, R2 = 1000 2,
L = 100 mH, C = 160 nF, i,(t) = 4 cos 5000t mA
i,(t) = 4 cos 5000t mA
constant current source
V,(t)
Vc(t)
ic(t)
V,(t)
i,(t)
VR, (t)
VR, (t)
voltage on consțant current source
voltage across capacitor
current through the capacitor
inductance voltage
current flowing through inductance
R = 500 N Voltage across the resistor
R2 = 1000 Q voltage across the resistor
+ 10* s
Ic(s)
H(s) =
!g(s)
s2 + 104 s + 625. 105
What is the mathematical expression
of the voltage Ic(t) in the steady
(continuous) state?
a) Vc(e) = 4,472 cos ( 5000r - ) v
b) Vc(t) = 3,5776 cos ( 5000r + ) v
c) Ve(t) = 2 cos ( 5000t +
d) Ve(e) = 4 cos ( s000r - ) v
18,43
e) Vc(t) = 6,32455 cos ( 5000t
V.
Transcribed Image Text:500 N 1000 N 160 nF 100 mH R = 500 N, R2 = 1000 2, L = 100 mH, C = 160 nF, i,(t) = 4 cos 5000t mA i,(t) = 4 cos 5000t mA constant current source V,(t) Vc(t) ic(t) V,(t) i,(t) VR, (t) VR, (t) voltage on consțant current source voltage across capacitor current through the capacitor inductance voltage current flowing through inductance R = 500 N Voltage across the resistor R2 = 1000 Q voltage across the resistor + 10* s Ic(s) H(s) = !g(s) s2 + 104 s + 625. 105 What is the mathematical expression of the voltage Ic(t) in the steady (continuous) state? a) Vc(e) = 4,472 cos ( 5000r - ) v b) Vc(t) = 3,5776 cos ( 5000r + ) v c) Ve(t) = 2 cos ( 5000t + d) Ve(e) = 4 cos ( s000r - ) v 18,43 e) Vc(t) = 6,32455 cos ( 5000t V.
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