(ii) For the circuit in Figure 2.0a: If v(t) = 10 cos(⍵t + 0º) volts, R = 510 Ω, and C = 0.22 µF; use your derived expressions to determine the magnitude ǁZǁ; the phase-angle, ƟZo and the magnitude, ǁIZǁ for each frequency, f listed in below Table 2.0. Recall: ⍵ = 2πf; and 1kHz = 103Hz = 1000Hz. frequency, f (kHz)magnitude, ǁIZǁ (mA)magnitude, ǁZǁ (kΩ)phase-angle, ƟZo (degrees)0.1 0.5 1.0 5.0 10.0 50.0 200.0 v(t) = |-VmCVmVzRZFigure 2.0a: R-C circuit with sinusoidal AC source+Cto CH-1Vmto CH-2v(t) = |Vz(t)+-VmR VR(t)Iz(t)Figure 2.0b: R-C circuit with sinusoidal AC source and measurement connections.

Step 1: Step 2: Step 3: Step 4:

Answered: v(t) = | -Vm C Vm Vz R Z Figure 2.0a:…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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(ii) For the circuit in Figure 2.0a: If v(t) = 10 cos(⍵t + 0º) volts, R = 510 Ω, and C = 0.22 µF; use your derived expressions to determine the magnitude ǁZǁ; the phase-angle, ƟZo and the magnitude, ǁIZǁ for each frequency, f listed in below Table 2.0.

Recall: ⍵ = 2πf; and 1kHz = 103Hz = 1000Hz.

frequency, f (kHz)	magnitude, ǁIZǁ (mA)	magnitude, ǁZǁ (kΩ)	phase-angle, ƟZo (degrees)
0.1
0.5
1.0
5.0
10.0
50.0
200.0