3. Phasors and complex exponential functiona) Consider 2 voltage functions:v₁ (t) = 5 sin(10t+60°) (V) and v₂(t)= 5 cos(10t+30°) (V)i) Find angular frequency w and phasors V₁ and V₂.V₁-V₂ii) For a RL circuit, we have phasor equation I =Z₁Solve for phasor current I and find time varying current in terms of cos.b) i) Express -√3+i in exponential form with all possible values for angle,ii) For Z = x + iy, find the magnitude and angle of e³²-¹.iii) Find all possible values of e³²-¹ = − √3 + i.==where Z₁ = R+ jwL, R=10(N) and L = √3 (H).

The question is about phasors and ac sinusoidal analysis. Note : due to multiple subparts i had solved only 1 st question and in that 2 sub parts.

Answered: 3. Phasors and complex exponential…

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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A sinusoidal 100V source (w=100 r/s) has an series resistor and capacitor as shown. This source drives a load, which consist of a parallel combination of a resistor RL and a reactive component (capacitor or inductor) of impedance jXL. Determine the value of RL (load resistor) and XL (load reactive component) that maximizes the power absorbed by the load and the maximum power transferred. + 100 V 100 r/s ww 20 Ω 1.5 mF RL jXL
Power in Extreme Frequency Limits. You and your team have been assigned to find a power supply for the circuit in the drawing. which can be used to supply a dc voltage at 15.0 V, or a high frequency ac signal with a root-mean-square (rms) voltage of 15.0 V. The components in the circuit have the following values: R=4.600, C= 20 nF, and L = 22 mH. Your task is to estimate the peak wattage (i.e.. power) required of the power supply for (a) the dc and (b) the high frequency signals. Conceptual Example 5 will provide insight into this problem. (a) Number (b) Number 24.4 196 R ww Units W Units W C HH elle L R
An 50 resistor, a 5 mH inductor, and a 1.25 μF capacitor are connected in series. The series-connected elements are energized by a sinusoidal voltage source whose voltage is 600 cos(8000t+ 20°)V. Part A Determine the impedances of the elements in the frequency-domain equivalent circuit. Express your answers in ohms to three significant figures separated by commas. Enter your answers in rectangular form. ZL, ZC, ZR= Submit Part B ΠΫΠΙ ΑΣΦ Ig= Request Answer ΑΣΦ | 11 Ivec Reference the current in the direction of the voltage rise across the source, and find the phasor current. Express answer in amperes to three significant figures. Enter your answer using angle notation. Express argument in degrees. vec ? ? A Ω

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