Let R₁ = 25 S2, R₂ = 75 2, L = 69 mH, C = 46 µF, and vs(t) = 155 cos(250t + 60°) V in the circuit shown in Figure 9.22. What is the impedance of the inductor and the impedance of the capacitor?R₁LFigure 9.22O a. ZL=j21.682, Zc = -169.202O b. ZL=-j21.682, Zc = -169.20O c. ZL=-j21.682, Zc=-169.202O d. Z₁ = -j69.20, Zc=j21.69 2с

GIVEN: R1=25ΩR2=75ΩL=69mHC=46μF VS(t)=155 cos(2π×50t)+60°) FIND: impedance of the capacitor and…

Let R₁ = 25 2, R₂ = 75 2, L = 69 mH, C = 46 µF, and vs(t) = 155 cos(2 R₁ R₂ HI Figure 9.22 O a. ZL=j21.68 2, Zc = -169.202 O b. ZL-121.68 2, Zc = -169.2 O c. ZL-121.68 , Zc = -j69.20 O d. ZL-169.2 2, Zc 121.69 2

Let R₁ = 25 2, R₂ = 75 2, L = 69 mH, C = 46 µF, and vs(t) = 155 cos(2 R₁ R₂ HI Figure 9.22 O a. ZL=j21.68 2, Zc = -169.202 O b. ZL-121.68 2, Zc = -169.2 O c. ZL-121.68 , Zc = -j69.20 O d. ZL-169.2 2, Zc 121.69 2

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...

See similar textbooks

Related questions

Q: 0. 2.4KVA 120430°(+ V rms 0.6 pf lagging ect one: a. 94 A rms. b. 2.7 Ams. C. 47 A rms .

Q: (b) Given that a total impedance of a series circuit is Z = 10 – j13 Q and the operating frequency…

A: In this question, Total impedance Z= 10-13j Operating frequency f= 60Hz. Sketch the series and…

Q: VR. VR2 R2 Ri Ve YL 本Is Ic IL 10 40°Y f: 50 H2 2mfC 15mH3 L Find= Is,Ic, Ye, VL VRI (ANSWER IN Rms)

Q: source provides a sinusoidal current i,(t) of 60 Hz to two resistors and a capacitor, so that rough…

Q: Consider the following circuit consisting of an AC generator V-V.sin(et), a capacitor C, an inductor…

A: Given circuit diagram is shown below. Here the AC generator is V=Vosinωt Volts. We need to find the…

Q: Given a parallel RLC circuit comprised of the following element: 72.06-ohm resistor, ideal inductor…

A: First we will find out the current then apparent power then reactive power .

Q: Solve for the Vrms (magnitude only) across the capacitive reactance if R2 = 1087 ohms and Xc = 2301…

A: The solution is given below

Q: Given the circuit shown below while assuminga 50 0 2 A 10 apply a source Transformation the voltag

Q: Short Problem: Given a parallel RLC circuit comprised of the following element: 94.42-ohm resistor,…

Q: Ex. 681. Given a sinusoidal voltage source in series with R,L, and C. The sinusoidal frequency is…

A: The solution is given below

Q: R3 R2 R: HE

Q: For the circuit of the following figure, if R=26 Q, Zc=-J18 Q, and ZL=J18 Q, and if the value of the…

A: To find The value of reactive power supplied by 3L-41° v

Q: and C = 82.8 µF. If the potential drop across resistor R TRY SOLVING THIS! is 72 volts, determine…

Q: Q5: For the circuit shown below, R,= 200 2, R2 5 k2,C 0.5 uF, C2 3 nF and the DC supply voltage (Vo)…

A: Resistors, inductors and capacitors form an integral part of any electrical circuit. A source,…

Q: Example/ The FWR cet. shown in Fig.below draw output wave form. Then find i. DC voltage and current…

A: Dear student as per our guidelines we are supposed to solve only one question in which it should…

Q: R1 Vs(t)=10cos(2000rt) i: Ri=330 N Ci=1,5 µF C1 Vs

Q: Q5 For the network shown. 24 V Determine Zi, Zo, AµNL, Apl and Aps. Find the output voltage when the…

Q: Giving the following tank circuit, if L= 50 mH, R=10N and C=5µF. The approximate value of w, is

A: Given data: L = 50 mH C= 5 uF R = 10 ohm

Q: A generator of constant voltage but of variable frequency is connected to a series RLC circuit.…

A: Let us understand the above question, with the help of the circuit diagram given below. Where,…

Q: Calculate rms current amplitudes for the complex circuit

A: Given complex circuit:Asked to find the rms currents amplitudes of the given circuit?Note: "Since…

Q: Find the Norton equivalent circuit with respect to the terminals a,bfor the circuit

A: First, we calculate Norton's current. For Norton's current, short circuit the load terminals and…

Q: U gchIC LOgi .. Q/ Given the information provided in figure below, determine: RB Vcc 32.1 µA 2.5 KN…

A: Here it is asked to find the Rb using the informations given. Here some assumptions have been…

Q: 6. A coil whose resistance is 100 ohm and inductance of L1 is connected in parallel with a series…

Q: Problem 1: Di and D2 are battery modeled diodes of 0.7 V. If 'V;' is a sinusoidal signal with 1 kHz…

A: “Since you have asked multiple questions, we will solve the first question for you. If you want any…

Q: Write the differential equations for this circuit then change this circuit so that The voltage at…

A: The given circuit diagram is shown below, Here,V2=9.0 VRipple = 500mVppf=60HzVp=20Vα=45°

Q: In a certain series RLC circuit, I 9.00 A, AV 210 V, and the current leads the voltage by 36.0. (a)…

A: In this question, If RLC are connected in the series then find the value of R, L, C if Voltage and…

Q: A 3.5-ohm resistor is in series with a 25 micro-Farad capacitor. The combination is in parallel with…

A: In this question we need to find a current I1 and I2

Q: Find Za

Q: i) Define R.M.S value of an alternating quantity and derive its expression for sinusoidal current.

A: To calculate the rms value of sinusodial current and define thr rms?

Q: Problem 1.3: For two phasors Ã = 85440° and B = 700250°, find (i) Ã + B, (ii) Ã – B, (iii) Ã × B,…

A: A phase difference between two sinusoidal waveforms of the same frequency reflects the angular…

Q: C1 L1 R1 V1 Vout V1 contains the fundamental and its harmonics (fo, 2fo, 3fo, ...). The amplitude of…

A: The circuit diagram is: V1 contains harmonics and the amplitude of the harmonics is inversely…

Q: R2 is(t) ( R1 C vic(t)

Q: . 6. What is the power factor of the circuit in Question 6? 7.How many degrees are the voltage and…

A: We need to find out the power factor and phase angle between current and voltage.

Q: Consider the circuit shown below. Determine the following: a) Find the phasor current I. b) Active…

A: In this question , we will find current , active power, reactive power , apparent power and power…

Q: 2. A coil has a resistance of 482 and an inductance of 1.5H connected in series. If the current…

Q: What is the peak current in a AC circuit with a 50 ohm resistor, 3.3 mH inductor, and a 480 nF…

A: This is the series RLC circuit and concept of resonance Use fundamental formulas

Q: A 250-Q resistor and a 4-µF capacitor are connected in series across a sinusoidal a.c. supply for…

A: We have to calculate current drawn from the supply and phase angle between supply voltage and supply…

Q: For the coupled circuit shown, find the 12 J52 A J82 value of mutual inductance "M" and put the dots…

A: The solution is given below

Q: -j30 Is IL IR Vc Vs j6N ViR 122 Figure QI(b) (b) An ideal voltage source is connected with one…

Q: V= 10 V R₁ 100 ΚΩ C0.1 pF .caluclate Vp, the voltage necessary to tum on the UJT 3. Sketch the…

Question

Let R₁ = 25 S2, R₂ = 75 2, L = 69 mH, C = 46 µF, and vs(t) = 155 cos(250t + 60°) V in the circuit shown in Figure 9.22. What is the impedance of the inductor and the impedance of the capacitor?
R₁
L
Figure 9.22
O a. ZL=j21.682, Zc = -169.202
O b. ZL=-j21.682, Zc = -169.20
O c. ZL=-j21.682, Zc=-169.202
O d. Z₁ = -j69.20, Zc=j21.69 2
с

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step by step

Solved in 4 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Microelectrronics Theory Experts: Why is D1 open and D4 open, can you explain?
The diagram below represents the phasor diagram for an RLC circuit using an 82.0 2 resistor, and unknown capacitor and inductor. Given AV₁ = 26.0 V, AVR = 21.5 V, and AVC= 17.5 V, determine the following. AVL AVC A Vmax (c) the average power delivered to the circuit W AVR (a) the maximum voltage and the maximum current V AVmax= Imax= A (b) the phase angle
Problem 2 Dị and D2 are modeled using a battery of 0.6V. 'Vin' is a sinusoidal signal with 1 kHz frequency and amplitude voltage of 10V, 1. Find 'Vout' as a function in 'Vin'? 2. Plot 'Vout’ versus 'Vin +5 V { 2kn 2kN Vin o Vout
Problem 4-A 80 kHz sinusoidal voltage has zero phase angle and a maximum amplitude of 25 mV. When this voltage is applied across the terminals of a capacitor, the resulting steady-state current has a maximum amplitude of 628.32 μA. a) What is the frequency of the current in radians per second? b) What is the phase angle of the current? c) What is the impedance of the capacitor? d) What is the capacitance of the capacitor in microfarads?
For the circuit shown, what is the reactive power, Q, delivered by the voltage source? (Assume the voltage source is in RMS.) a 40.0 N Vs = 230 20° V(a %3D 47.75 mH 31.83 µF f = 200 Hz O 655.5 VAR O -655.5 VAR O 749.0 VAR O -749.0 VAR ll
Circuit theory 2
Let R₁ = 34 22, R₂ = 49 S2, Zc = -j45, and Z₁ =j65 in the circuit shown in Figure 9.29. Find the equivalent impedance between terminals a and b. a b Figure 9.29 Zc+ O a. Zeq = 59.425-j49.459 2 O b. Zeq = 49.425-j39.459 02 O c. Zeq = 39.425-j29.459 02 O d. Zeq = 69.425 -j59.459 R₂ Z
1. CRTAL -? 2. QnnAL = ? 3. Q2 4. V7 -? 5. V3 : ? : ? (2) 2 AF TCH=ZMF Ta- 50V CG 2m F i. TOTAL CAPACITANCE G TITAL CHARGE ? 2. ENEREY ORED IN A CRCUT?
Consider the following circuit used to provide power for an inductive RL load. The input voltage is Vs=150V and the load has a 30 impedance value. The thyristor is working at a frequency fs = 2 kHz. The discharge current is to be limited to 50A and the required dv/dt is 50V/us. The values of Rs and Cs are equal to: Cs Ti V, Select one: O a. 30, 0.158µF b. 30, 0.352µF ос. 30, 0.64µF O d. 60, 0.5µF
) Evaluate In C3tja) + h (2tjo). Convert your answer to polar form.
Find the frequency, period, amplitude and phases of Is, Vs and VR1.
Solve in detail please to understand