Learning Outcomes: At the end of the session the student should be able to: LO1. Analyze AC circuit and network to solve electrical circuit problems by applying the principles, laws and theorems in circuit analysis. LO2. Understand AC fundamentals and characteristics of a sinusiedal waveform. Using an AC volt meter we found the AC sine wave voltage to be 10-Volts, 50HZ. 1. Determine the peak value of this voltage. 2. Determine the RMS value of this voltage. 3. Determine the peak to peak value of this voltage. 4. Determine the average voltage. 5. Determine the period covered by one cycle. 6. Draw two cycle of sinusoidal waveform and label. A sine wave displayed on an oscilloscope as shown below. The scope sensitivity is set at 5V/division and the time base control is set to 10ms/division.

Learning Outcomes: At the end of the session the student should be able to: LO1. Analyze AC circuit and network to solve electrical circuit problems by applying the principles, laws and theorems in circuit analysis. LO2. Understand AC fundamentals and characteristics of a sinusiedal waveform. Using an AC volt meter we found the AC sine wave voltage to be 10-Volts, 50HZ. 1. Determine the peak value of this voltage. 2. Determine the RMS value of this voltage. 3. Determine the peak to peak value of this voltage. 4. Determine the average voltage. 5. Determine the period covered by one cycle. 6. Draw two cycle of sinusoidal waveform and label. A sine wave displayed on an oscilloscope as shown below. The scope sensitivity is set at 5V/division and the time base control is set to 10ms/division.

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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