For the circuit in Figure 1, R = 2k2, L= 250MH, and C= 101F. The initial current in the inductor, is Io =- 4A, and the initial capacitor voltage is 0V. The characteristic roots of the RLC circuit, s and s2, are: ic CVo ir L3 I. Figure 1 a) sį = 0rad/s b) s, =-0.0125+ j0.316rad/s s, =-0.0125- j0.316rad/s © s; = -10,000 rad/s d) s, =-5000rad/s e) None of the above S, =-12,000 rad/s %3D S2 =-40,000 rad/s s2 =-20,000 rad/s For the circuit in Figure 1, what is the initial value of the time derivative of the voltage in the capacitor, dvc(0*)/dt ? dv.(0") - 4x10 V/s a dt dv (0*) b) dt dv.(0*) = 7.5x10 V/s dt dv (0") – 2,450 V/s d) dt e) None of the above For the circuit in Figure 1, what is the initial value of the current in the resistor, ir(0*)?

For the circuit in Figure 1, R = 2k2, L= 250MH, and C= 101F. The initial current in the inductor, is Io =- 4A, and the initial capacitor voltage is 0V. The characteristic roots of the RLC circuit, s and s2, are: ic CVo ir L3 I. Figure 1 a) sį = 0rad/s b) s, =-0.0125+ j0.316rad/s s, =-0.0125- j0.316rad/s © s; = -10,000 rad/s d) s, =-5000rad/s e) None of the above S, =-12,000 rad/s %3D S2 =-40,000 rad/s s2 =-20,000 rad/s For the circuit in Figure 1, what is the initial value of the time derivative of the voltage in the capacitor, dvc(0)/dt ? dv.(0") - 4x10 V/s a dt dv (0) b) dt dv.(0) = 7.5x10 V/s dt dv (0") – 2,450 V/s d) dt e) None of the above For the circuit in Figure 1, what is the initial value of the current in the resistor, ir(0)?

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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