The waveform in the following figure can be expressed asx(t) = A cos[wo(ttm)] = A cos(@ot +) = A cos(2л fot + )From the waveform, determine A, wo, tm, and o. Choose the value of such that −л <þ≤л.Sinusoidal Signal: x(t) = A cos(@t + )2010-100-20-0.02-0.0100.010.020.030.040.050.06t (time in sec)

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Answered: The waveform in the following figure…

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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If Vin is a source with a 10V sinusoidal signal of 10kHz, R is 500Ω, and C is 0.05µF what will the steady state sinusoidal voltage be? What is the phase offset? What is the voltage immediately after the source is connected (unknown phase)?
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Write equations for the waveforms of Figure. Express the phase angle indegrees. Here the answers that I did: (a) i(t) I(t) = 5sin(1000t + 90o)mA (b) i(t) (t = 50ms is period of waveform b.) i(t) = 10sin(125.66t + 60o)A (c) v(t) 40sin(5655t - 45o)V can you check if my answer is correct?
1. Define r.m.s. and average value as applied to ac voltage, prove that in pure inductive circuit, current lags behind applied voltage at an angle 90°. (Down waveform) 2. Find the ms value, average value, form factor and peak factor for the waveform shown in figure. (Nagpur University, Summer 2002) (Nagpur University, Winter 2003) i(t) Im T/2 T' 3t 7t 20 20 Im Fig. 11.66
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1- The wavelength of a 50Hz sinusoidal waveform is A-40ms B-100ms C-50ms D-25ms 2- The intensity of the signal waveform is A-regular waveform B-Period C-Wavelength D- Amplitude 3- The average value of an AC waveform is equal to A- 0.637* Vmax B-0.707 * Vmax C-1/√2 *Vmax - 4 Radian is Equal to A-Degree x Π 180 Π π 180 D-1.11 B-Radian x C- Degree x D- π 180

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