12. What are the correct answers? The standard form of inductancereactance in phasorXL = jwL = j(2πfL) Qbut j is 1<90°, also XL = 2πfL<90°The standard form of capacitivereactance in phasorXc = 1/(jwC) = 1 / (j*2πfC) = -j/(2TTfC)but -j is 1<-90°, so Xc = 1<-90°/(2TfC)ΩExample: 3 inductive reactance areconnected in series, XL1 = j40 , XL2= j25 Q2, XL3 = j35 Q, the totalreactance is j40 + j25 +j35 Q =j100 ΩExample: 3 capacitive reactance areconnected in series, Xc1 = -j50 , Xc2= -j60 Q2, Xc3 = -j40 , the totalreactance is-j50 Ω -j60 Ω,-j40 Ω = -j150 ΩPossibly, impedance Z can haveresistance and reactances. Z = R + jX;R is the real part and represents thevalue of resistance, ±jX representsthe value of reactance (it can beinductive when positive orcapacitive when negative)Example, A series circuit is composedof R = 5 Q2, XL = j20 02, Xc = -j30 QZ = 5+j20-j30 = 5-j10 02 (thismeans the circuit is capacitive),In polar form Z = 11.18<-63.43° QNotes:1. When the angle of the impedanceZ (in polar form) is positive, thecircuit is inductive and the powerfactor is lagging (the current lagsbehind the voltage by a certainangle).Example: Vrms = 230<0° V, Z =30<35°, find I.Irms = Vrms/Z = 230<0° V/30<35° =7.67<-35° AThe angle between the voltage and thecurrent is 35° (absolute), but thecurrent lags behind the voltage (V isalong positive x-axis, while I is in 4thquadrant)2. When the angle of the impedanceZ (in polar form) is negative, thecircuit is capacitive and the power isleading (the current leads thevoltage by a certain angle).Example: Vrms = 230<0° V, Z =25<-55°, find I.Irms = Vrms / Z = 230<0° V / 25<-55° =9.2<55° AThe angle between the voltage and thecurrent is 55° (absolute), but thecurthe voltage (V is alongpositive x-axis, while I is in 1stquadrant)Problem: A series RLC circuit iscompose of R = 50 Q2, XL = j40 Q2, Xc =-j15 2. The supply voltage is Vrms =240<0° V, find the impedance, current,and power factor of the circuit.Opf = cos(45°) = 0.707 lagging1 = 4.92<26.57° QOZ = 55.90<26.57° Q14.92<-90° QONFTOCOZ = 55.90<-26.57° QOpf = cos(26.57°) = 0.894 leadingpf = cos(0°) = 1, unity (the current andvoltage are in-phase)0 1 = 4.92<-26.57° ΩOpf = cos(26.57°) = 0.894 laggingOZ = 55.90<90° Q

Answered: Image /qna-images/answer/78f979e4-9319-46d8-a6f8-2243f969f7d2.jpg

Answered: Problem: A series RLC circuit is…

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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An RC circuit consists of a resistor R = 32 Ω, a capacitorC = 25 mF, and an ac generator with an rms voltage of 120 V.(a) At what frequency will the rms current in this circuit be 2.9 A?For this frequency, what are (b) the rms voltage across the resistor,Vrms,R, and (c) the rms voltage across the capacitor, Vrms,C? (d) Showthat Vrms,R + Vrms,C 7 120 V, but that 2V2rms,R + V2rms,C = 120 V.
What is the product of two complex numbers 4 + 3j and 2+ 2j where j = sqrt (1-) in phasor notation? Write the answer in the form, to make it easy to type, magnitude AT angle in radians.
An RLC series circuit has an impedance of 60 Ω and a power factor of 0.50, with the voltage lagging the current. (a) Should a capacitor or an inductor be placed in series with the elements to raise the power factor of the circuit?(b) What is the value of the capacitance or self-inductance that will raise the power factor to unity?
37. "Mathematically, out of phase means that the phase angle of two waves are the different and its phase difference is zero." True False "In time domain represenatation of a signal, a signal with an expression of 220 sin (377t -180) is also equal to -220 sin (377t)." True False "Phasor domain representation is an ac signal representation considers the time-varying nature of the signal, specifically its sinusoidal form." True False In time domain represenatation of a signal, a signal with an expression of 220 sin (377t -90) is also equal to +220 cos (377t)." True False
ALL ANSWER IN MAGNITUDE FORM PLS USE 4 DECIMAL PLACE *A coil of resistance 1 ohm and inductance 100 mH is connected in series with a capacitance of 0.12µF across a 200 V, variable frequency supply. Calculate the resonant frequency *A 1- microfarad capacitor is connected in series with a 50 ohm resistor. What is the capacitor reactance values on mOHMS? Assume ω =377 *The total capacitance of two 40-mF series-connected capacitors in parallel with a 1 mF capacitor is _____? *A pure inductance is connected to a 150 V, 1 Hz supply, and the apparent power of the circuit is 300 VA. Find the value of the inductance *What is the RMS current of a trapezoidal wave with 1 A max? *A circuit consisting of a resistor in series with a capacitor takes 100 watts at a power factor of 0.1 from a 100 V, 60 Hz supply. Find the current flowing
determine the inductive reactance of rlc series ac circuit given the ff: rms current=7.5A voltage=5V resistance=150ohms capacitive resitance=160ohm source average power=2.5W
Express these sinusoids as phasors: Ans. (a) V = 7∠??°, (b) I = 4∠???°
Answers are: ST=37846+j9268.7 VA, PF1 = cos(13.76)=0.97 Lagging, C= 568.2mF Please Solve in steps
A circuit has an ac voltage source and a resistor and capacitorconnected in series. There is no inductor. The ac voltage source hasvoltage amplitude 900 V and angular frequency v = 20.0 rad/s. Thevoltage amplitude across the capacitor is 500 V. The resistor has resistanceR = 300 Ω. Does the source voltage lag or lead the current?
1. For the following sinusoids, determine which one leads and by how much a. ?(?) = 10cos (4? − 60°) and ?(?) = 6sin (4? + 50°)b. ?ଵ(?) = 4cos (377? + 10°) and ?ଶ(?) = −20cos(377?)c. ?(?) = 13 cos(2?) + 5 sin(2?) and ?(?) = 15cos (2? − 11.8°)
6. What is the sinusoidal expression of current through circuit contain only capacitor? (Where C=20μF, v=4 sin(1000t+20) V
Solve the question and show solution. Note: Find the value of capacitor and draw the vector diagram of the impedance, power triangle and voltage triangle. Clarification on the value of the inductor is 51.34 mH and the power factor of the circuit is 0.54305. The circuit is capacitive. Lastly, Pt = 1.097 kW. (Sorry for the poor image quality) Thanks!!!

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Problem: A series RLC circuit is compose of R = 50 Q2, XL = j40 Q2, Xc = -j15 22. The supply voltage is Vrms = 240<0° V, find the impedance, current, and power factor of the circuit.