9 If R=200 2, L=3 H, determine the individual contribution each voltage source makes to the nodal voltage v1(t) as represented in the following figure(1)allR3 cos (100t + 80°)V2 cos 80f VOa. 1.664 cos(100t + 23.69 ) + 1.536 cos(80t+ 39.806 *) VOb. 1.764 cos(100t + 28.69 ) + 1.536 cos(80t+ 39.806 *) VOc. 1.764 cos(100t + 28.69 *) + 1.636 cos(80t+ 44.806 *) VOd. 1.664 cos(100t - 23.69 ) + 1.636 cos(80t+ 44.806 *) V

Answered: Image /qna-images/answer/bca144f1-9402-4431-b3aa-6bf244cec555.jpg

Answered: If R=200 N, L=3 H, determine the…

If R=200 N, L=3 H, determine the individual contribution each voltage source makes to the nodal voltage v1(t) as represented in the following figure lle L R 3 cos (100t+80°)V | 2 cos 801 V +2

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.17MCQ: Consider the load convention that is used for the RLC elements shown in Figure 2.2 of the text. A....

See similar textbooks

Related questions

Q: The R-C circuit shown below has an AC power supply with 150 Vrms / 50 Hz output. Moreover, R1=8kN,…

A: The total resistance of the circuit is Req=R1+R2=8K+10K=18KΩ The two capacitors are in series, then…

Q: In the shown circuit if the currents i,(t) = 15 cos (20t-45°) mA and iz(t) = 8 sin (200t +30) mA,…

Q: The expressions for the steady-state voltage and current at the terminals of the circuit seen in the…

A: Given ,Vg=350 cos 5000πt+84°Vg=350∠84°ig=6 Sin 5000+127°ig=6 Sin 90+5000πt+37°ig=6 cos 5000πt+37°…

Q: If i = 4 sin(2*pi*f*t - 30°) and v = 7sin(2*pi*f*t-50degrees) which one of these statements is…

A: i=4sin2πft-30°v=7sin2πft-50°

Q: connected in parallel with an 90 Q resistor across a Vrms = 230<0° V, f = 60 Hz supply. Calculate…

A: Given R= 90 ohms C = 25 microF V= 230 v F = 60 Hz

Q: #1. A series RLC circuit containing a resistance of 150, an inductance of 0.12H| capacitor of 470uF…

A: We are authorized to answer three subparts at a time, since you have not mentioned which part you…

Q: Q3. For the circuit shown below, determine the value of i,(t) i, (t) 292 2mH 5 Cos2000t V 50uF 202

Q: 8. The circuit below is similar to Problem 7 and operates at a frequency of 10 kHz. Circuit element…

Q: Question No. 4: For the below circuit, assume that: Vi(t) = 20 cos(wt+30°) V2(t) = 10 sin(wt+60°)…

Q: Question No. 4: For the below circuit, assume that: V:(t) = 20 sin(wt+30°) V2(t) = 10 cos(wt+30°)…

A: In this question, Voltage equations are given. Write the phasor representation of the given…

Q: QUESTION 4 The voltage and current at the input of a circuit are given by the expression 1) v(t) = 3…

A: Given: Voltage, vt=3 cos100t V Current, it=4 cos100t-45° A

Q: Figure Q2(b) shows the time domain circuit with the voltage source, v,(t) is 25 cos 100t V. The…

A: The solution is given below

Q: A series connection of a 30-ohm resistor and a 100-mH inductor is connected across 240-V, 60-Hz…

A: To find current equation from the given option

Q: Find the currents and voltages between terminals ab and ac in the given circuit. (Vs=121v2cos 1000t,…

A: Given, Vs = 1212cos1000t = 1212sin(1000t +900)Is1 = 2522sin(1000t)Is2 = 2222sin(1000t)We will solve…

Q: In the circuit shown in Figure 1, the source is V1=10 sin ( @t) V where @ = 2n x 200 rad/s. If the…

Q: For the circuit below. a. Calculate the current contributed by the two sources (in time domain). ɔ.…

Q: 1. For the circuit below, use phasors to calculate the current i(t) and voltage v,(t). R = 102, L =…

Q: Using phasors, determine i(t) in the following equations: (a) 24 + 3í(1) = 4 cos(21 – 45°) di (b) 10…

A: Please refer the attached images for the complete answer..

Q: Find phasous for the following expressions. a) v(t) = 21 cos(4t – 15°) V b) i(t) = –8 sen(10t + 70°)…

Q: If the voltage v(t) 24 cos (377t + 75°) V is applied to a 6 Q resistor, %3D determine the a) phasor…

A: Given R = 6 ohm v(t) = 24 cos (377t + 75°) V a) phasor voltage = ? b) phasor current= ? c)…

Q: Figure Q2(b) shows the time domain circuit with the voltage source, v,(t) is 25 cos 100t V. The…

A: The solution is given below

Q: 30 v(t)= 100 sin(10r) at t0 A coil has been connected to an AC source for a long time and at t-0 the…

A: In this question we need to choose a correct option.

Q: 20 1 mF is(t) v(t) L, 3 10 mH L23 2 mH

A: Phasor form

Q: (b) Figure Q2(b) shows the time domain circuit with the voltage source, vs(t) is 25 cos 100t V. The…

A: In an AC circuit all elements work on the same frequency. As the source of the circuit is connected…

Q: Two current i, and iz are given by the expression i, = 10 sin (314t +4) and iz = 8 sin (314t + Find…

Q: 2). The current through a 20 ohm capacitive reactance is given below. What is the sinusoidal…

A: The solution is given below

Q: i(t) i(t) b 42 (a)

A: Here, we have applied current division rule to find the current divides between the two resistors…

Q: 1kQ 827.6mH 79.58µF vs(t) = 3 cos (125.66t) Load >492.52 Circuit 796mH 8.842µF a) Convert the…

A: given data:

Q: L L= 40 mH %3D Nout Vin E R =125.6 Vin (+)= 3+ G0 cos (20 Tt+ 15) %3D + 40 sin (2000 TTt- 30) Find…

A: Let X and Y be two impedance connected in series and output is obtained across Y then according to…

Q: Consider the circuit diagram where Vs = 2300 20 V 2 Z₂ Z₁₂ $ Z₂ 2 Find: 1. The apparent power…

A: In this question we need to find a apparent power delivered by source and input current of the given…

Q: Given: ZR, Zc Determine I, the exclusive contribution of the voltage source to I,. Write your answer…

Q: Find V and E at point.(I, pi/3, * pi/2) no one of these answers O 2.35 V, 0.9ar + 1.7794a,, V/m.…

Q: 1. Sketch the following instantaneous equations ( v = 25 sin (377t + 30°) V b. i = 1 sin (628.3t а.…

Q: Check Causality, dynamic, linearity and time invariant tor the tolowing System…

Q: 16. Determine the following from the given R-L-C series circuit: ) Impedance Z ii) Current i iii)…

A: We are authorized to answer only three subparts at a time since you have not mentioned which part…

Q: Given the current i1(t) = 10 sin (20t), the corresponding phasor equivalent I1 is

A: Phasor equivalent contains magnitude in RMS and phase of the signal.

Q: Using a phasor graph find the voltage u(t) Exercise 2 İL(t) L the Given: i¿(t) = 5/2 sin(æx) A R =…

A: The current through inductor in phasor form is written as iL(t)=5*22∠0°=5∠0°A The inductive and…

Q: The current source in the circuit shown gener- ates the current pulse 6.1 v34 mH iç(t) = 0, t < 0,…

Q: 7 Find the phasor form of the following functions: a. v(t) = 155 cos (377t – 25°) V b. v(t) = 5 sin…

A: Hello. Since your question has multiple sub-parts, we will solve the first three sub-parts for you.…

Q: Assuming the following parallel as circuit is built: Xc = 60 XL = 3 0 I5 = 102 30°A R1 Xc XL R1 = 80…

A: In this question, in the circuit, a current source connected to RLC parallel circuit. Find the…

Q: Н. W.: 1- Given the voltage v(t) = 120 cos (314t + /4) V, determine the frequency of the voltage in…

Q: The voltage and current of an element are i(t) = 3.cos(1000t + 10°) V(t) = 6.cos(1000t – 80°) The…

Q: 1kQ 827.6mH 79.58µF Load vs(t) = 3 cos (125.66t) 492.50 Circuit 796mH 8.842µF a) Convert the circuit…

A: Asper guide line i have to answer only 3 . please post remaining again

Q: A series RLC circuit with L=160 mH, C= 100 micro F and R=40 ohm is connected to a sinusoidal voltage…

Q: In the circuit shown in Figure 1, the source is Vi=10 sin(@t) V where @=2n × 200 rad/s. If the…

Q: H.W: Two currents i, and iz are given by the expressions i = 10 sin(314t + t/4) amp. and iz = 8…

A: Given expressions of the currents, i1=10sin314t+π4 ampi2=8sin314t+π3 amp

Q: Giving the following tank circuit, if L= 50 mH, R=102 and C=5µF. The approximate value of w, is R…

A: First we will find admitanceseen from source in terms of frequency Wr. At resonance imaginary part…

Q: Assume that is(t) = 4√2 cos(2t) A in the circuit below. Use Thévenin/Norton, series-parallel…

A: To calculate Thevenin equivalent impedance,we deactivate the independent sources and calculate the…

Q: For the circuit shown below, Given that V 100Z0°Vm and I = 30245°Ams then the values of P, and Q3…

A: Given circuit shown below Vs=100∠0° VrmsIs=30∠45° Arms

Q: R = 3 N v.(t) = 325 cos 300t V C = 400 µF IL VL L = 2 mH Figure Q1 By referring to Figure Q1, answer…

A: Given: Circuit elements are known Supply voltage is given Calculate: voltage, current, impedance in…

Concept explainers

KVL and KCL

KVL stands for Kirchhoff voltage law. KVL states that the total voltage drops around the loop in any closed electric circuit is equal to the sum of total voltage drop in the same closed loop.

Sign Convention

Science and technology incorporate some ideas and techniques of their own to understand a system skilfully and easily. These techniques are called conventions. For example: Sign conventions of mirrors are used to understand the phenomenon of reflection and refraction in an easier way.

Question

100%

If R=200 2, L=3 H, determine the individual contribution each voltage source makes to the nodal voltage v1(t) as represented in the following figure
(1)
all
R
3 cos (100t + 80°)V
2 cos 80f V
Oa. 1.664 cos(100t + 23.69 ) + 1.536 cos(80t+ 39.806 *) V
Ob. 1.764 cos(100t + 28.69 ) + 1.536 cos(80t+ 39.806 *) V
Oc. 1.764 cos(100t + 28.69 *) + 1.636 cos(80t+ 44.806 *) V
Od. 1.664 cos(100t - 23.69 ) + 1.636 cos(80t+ 44.806 *) V

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

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 2 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

A series RLC circuit with L=160 mH, C= 100 micro F and R=40 ohm is connected to a sinusoidal voltage v(t) = 40sinWt, with W= 200 rad/sec. find,(1) What is impedance of the circuit (2) Let the current at any instant in the circuit be I(t) = I0 sin(Фt-F). find I0(3) What is the phase Ф I need all parts complete solve don't copy from any answer else I will give downvote
The parameters in the circuit are R1=0.1 Ω,ωL1=0.8 Ω, R2=24 Ω, ωL2=32 Ω, and VL=240+j0 V.1. Calculate the phasor voltage Vs.2. Connect a capacitor in parallel with the inductor, hold VL constant,and adjust the capacitor until the magnitude of I is a minimum.What is the capacitive reactance? What is the value of Vs?3. Find the value of the capacitive reactance that keeps the magnitudeof I as small as possible and that at the same time makes|Vs|=|VL|=240 V
termining the impedance and current of the system, the voltage across the resistor, and the voltage across the inductor. Could you please forward the response as a print of a handwritten answer? I got these two answers earlier. Which of them would be correct Impedance Z= (1000 + j 90.836) ohm Current I= 0.219∠-5.19° A Voltage across resistor VR = 219.097∠-5.19° V Voltage across inductor VL = 165.195∠84.81° V Impedance will be Z= 1004.052 ∠ 5.12° Current will be i = 0.221 ∠ -5.19° A. Volatge across resistor will be VR = 211.9∠ -5.19° V Volatge across inductor will be VL = 165.12 ∠ 84.81°V
The curve is described by V(t)=Vm*cos(w*t+theta) + Vshift. Given V1= 1 volts, V2=-V1, V3=0.2450 volts, and T=9.500 msec. Find Vm (volts), w (rad/sec), t3 (msec), theta (deg), and vshift (volts).
If the phasor voltage across an element is given by V=100∠120∘ and the phasor current through the same element is given by I=50∠30∘, which of the following basic circuit elements best represents this element? a. Insufficient information is given. b. Capacitor c. Some combination of these basic elements d. Resistor e. Inductor
Given the voltage υ(t) = 120 cos (314t + π/4) V, determine the frequency ofthe voltage in Hertz and the phase angle in degrees. 2- Three branch currents in a network are known to bei1(t) = 2 sin (377t + 45°) Ai2(t) = 0.5 cos (377t + 10°) Ai3(t) = - 0.25 sin (377t + 60°) A Determine the phase angles by whicha) i1(t) leads i2(t)b) i1(t) leads i3(t).
A circuit has a resistance of 12 Q and capacitive reactance of 16 Q in series, If the applied voltage is v= 262 sin (314 t) volts. Determine 3 The active and reactive power of the circuit. 4 Draw the phasor diagram taking current as reference phasor I need answers for iii and iv only
Give the detailed solution: An inductor L1 is connected in series with a parallel combination of inductor L2 and capacitor C. The impedance of the circuit w = 400 rad/sec is j100 ohms. The circuit is to yield infinite impedance at w = 1,000 rad/sec and zero impedance at w = 2,000 rad/sec. Determine the value of C. Answer: 1.32 microfarad
50. In AC circuit, Ohm's law proves that the phasor current though an element is equal to the ratio of the phasor voltage across the element with respect to the impedance of an element ." True False "In a R-C parallel circuit, R=10 ohms and Xc=10 ohms, the circuit total current is lagging to the applied voltage by 45 degrees (assumed applied voltage is the reference)." True False In a R-C series circuit, total current is out of phase with the applied voltage." True False
the voltage drops across four series connected impedances are as follows V1 = 60sin (wt + pi/6) V2 = 100 cos (wt + pi/4) V3 = 75 sin (wt + 5pi/6) V4 = Vm sin (wt + θ) Find the values of Vm and θ if the voltage across the series is 180 sin (wt + 3pi/5) and draw the equivalent circuit diagram.
Which can be said according to the circuit and phasor diagram given below? A) Impedance of circuit element 3 is greater than impedance of circuit element 2. B) The active power of the element 2 is greater than the total active power of the elements 3 and 5. C) The average power of element 4 is zero D) The current of element 2 is less than the total current flowing through circuit elements 3 and 5.
Build Circuit 1b in Multisim. Using MultiSim’s Oscilloscope, display and measure the voltages including the phase angles with respect to the input voltage. THIS IS 1b Problem: 1b) For the circuit shown , let R= 1kohm, L1 = 10mH, C1= 50nF. Calculate the values of Z, Phase Shift, I, Vr, Vc, VL , PR, PAPP and Power Factor. Do this for V1= 10 V at 10000Hz. Find resonant frequency. Measure phase shift like so: a) Measure the difference in times of the peaks for the two different waves. b) Divide this difference by the period length. The ratio tells you what fraction of a cycle the time difference is.c) One cycle is 360 degrees (or 2π radians) so multiply the fraction in step 2 by 360 degrees to convert that time difference into a phase shift (degrees)