500 N1000 N160 nF100 mHR1 = 500 n, R2 = 1000 n,L = 100 mH, C = 160 nF, I (t) = 4cos 5000t mAI (t) = 4 cos 5000t mAV, t)Vc(t)_in (t)V,(C)Constant current supplyVoltage on constant current sourceVoltage on capacitor Current_passing through the capacitor_Inductance voltage.Current flowing from inductance ,Voltage over resistance R1 = 500Vr.(0_Vr, (C)Voltage over resistance R2 = 1000s2 + 104 sH(s) = Ic(s)| (s) s2 + 104 s + 625. 105what is the mathematical expression of the IC (t) current in the permanent(continuous) state, since it is?a) Interior (t) = 4,472 cos (5000t -26,565 nmA180b) ic (t) = 3.5776 cos (5000t + 63,435.180) MAC) ic (t) = 2 cos 5000t +36,87 n180 ) MAd) ic (t) = 4 cos (5000t 53.13!)180e) ic (t) = 6,32455 cos (5000t 18,43 n) mA180 /

KCL: According to Kirchhoff's current law, the sum of current entering at a particular node is…

500 N 1000 N ww 160 nF 100 mH R1 = 500 n, R2 = 1000 n, L = 100 mH, C = 160 nF, I (t) = 4cos 5000t mA I (t) = 4 cos 5000t mA V, ) _Vc(t). in (t) V.(C) Constant current supply Voltage on constant current source Voltage on capacitor Current _passing through the capacitor _Inductance voltage Current flowing from inductance Voltage over resistance R1 = 500 Voltage over resistance R2 = 1000 _Vr.(0 _Vr, (C), s2 + 104 s H(s) = !C(s). I (s) s2 + 104 s + 625. 105 what is the mathematical expression of the IC (t) current in the permanent(continuous) state, since it is? 26,565 a) Interior (t) = 4,472 cos (5000t - mA 180 b) ic (t) = 3.5776 cos (5000t + 63,435 n 180) MA 36,87 C) ic (t) = 2 cos 5000t + 180 ) MA d) ic (t) = 4 cos (5000t 53.13!) mA 180 e) ic (t) = 6,32455 cos (5000t 18,43 n) mA 180

500 N 1000 N ww 160 nF 100 mH R1 = 500 n, R2 = 1000 n, L = 100 mH, C = 160 nF, I (t) = 4cos 5000t mA I (t) = 4 cos 5000t mA V, ) _Vc(t). in (t) V.(C) Constant current supply Voltage on constant current source Voltage on capacitor Current _passing through the capacitor _Inductance voltage Current flowing from inductance Voltage over resistance R1 = 500 Voltage over resistance R2 = 1000 _Vr.(0 _Vr, (C), s2 + 104 s H(s) = !C(s). I (s) s2 + 104 s + 625. 105 what is the mathematical expression of the IC (t) current in the permanent(continuous) state, since it is? 26,565 a) Interior (t) = 4,472 cos (5000t - mA 180 b) ic (t) = 3.5776 cos (5000t + 63,435 n 180) MA 36,87 C) ic (t) = 2 cos 5000t + 180 ) MA d) ic (t) = 4 cos (5000t 53.13!) mA 180 e) ic (t) = 6,32455 cos (5000t 18,43 n) mA 180

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter19: Capacitors

Section: Chapter Questions

Problem 2PA: You are an electrician working in an industrial plant. You discover that the problem with a certain...

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