1. For the given circuit in Figure 6.21, R = 2702, L = 1mH, input Vs = 4Vpp (sinusoidal), V, a) Calculate/Measure VRms, VLms, Ims for 1KHZ, 20kHz and 100kHz. (PW and Lab Part) Figure 6.21 b) Calculate/Measure the phase difference when frequency = 20 kHz. (PW and Lab Part) c) Calculate/Measure the impedance of the inductor at 20kHz and obtain the phasor diagram using the related values you calculated in the previous step. Calculate the apparent power, true power and reactive power related to each component in the circuit. (PW and Lab Part)

1. For the given circuit in Figure 6.21, R = 2702, L = 1mH, input Vs = 4Vpp (sinusoidal), V, a) Calculate/Measure VRms, VLms, Ims for 1KHZ, 20kHz and 100kHz. (PW and Lab Part) Figure 6.21 b) Calculate/Measure the phase difference when frequency = 20 kHz. (PW and Lab Part) c) Calculate/Measure the impedance of the inductor at 20kHz and obtain the phasor diagram using the related values you calculated in the previous step. Calculate the apparent power, true power and reactive power related to each component in the circuit. (PW and Lab Part)

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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