Using Nyquist criterion, how counter-clockwise encirclements of -1 made by mapping are in the given system below? R(s) + E(s) 50 Cls) s(s +3)(s + 6) System 1 1. -2 2.
Q: Q2: Use the Routh stability criterion to determine the number of roots in the left-half plane, the…
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Q: -Apply root locus technique to draw locus of the closed-loop poles for the system
A: Let us suppose ζ=1 in order to draw the closed loop poles clearly. Here, No. of Poles of Open loop…
Q: a) Write all the rules to draw root-locus for a system then, locate poles and z on S-plane (draw to…
A: Root locus is a graphical method to find the range of gain by which we can determine the stability…
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Q: For a similar PD controlled positioning system given in the previous problem, where Gc(s) = K(s + 4)…
A: Given:Gc(s)=K(s+4)Gp(s)=1s(s+2)(s2+10s+41)Now, if,…
Q: For the given two vectors C(6, 3, 7) and D(-2, -8, -8). Find the magnitude of |2rc + 6rpl.
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Q: 8.) Sketch the root locus, for positive K, of the system shown below using the (1, 1) Pade…
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Q: Assume that the Nyquist diagram of a given open-loop system G(s) looks like the following figure…
A: Assume that Nyquist diagram of a open loop system G(S) looks like the diagram as shown in the…
Q: Find
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Q: In order to change the behavior of a 2nd order underdamped system, we need to move its closed-loop…
A: As imaginary poles shift downwards angle phai decreases which cause increase in damping ratio (…
Q: In order to change the behavior of a 2nd order underdamped system, we need to move its closed- loop…
A: as the poles of the system moves closer to the Right side plane the system becomes more unstable
Q: The Nyquist plot of a system is shown in figure below. Given that P-0. Then, The order of system…
A: There are two encirclements of (-1,0) therefore N=-2. Given P = 0. number of open loop poles.
Q: H.W: Consider the sys. shown below, where the dead time Ta is (0.5) sec. R Ke-Tas s(s2 + 2s + 1) Use…
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Q: (5) Consider the following Routh table. Notice that the s' row was originally all zeros. Tell how…
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Q: a) In the Bilinear transformation method, the mapping from the s-plane iIs given 2z-1 by s== Tz+1…
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Q: 3. Consider the system given in Figure 215, where (s+25) +10s +355 +50s+24) Figure 2.15 Queston a…
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Q: Transform to cylindrical coordinates: F = 10ay - 8a, + 6a, at point P(10, -8, 6) %3D Select the…
A: The solution is given below
Q: For a negatively damped system, poles are positive on s-plane. Select one: True False
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Q: causal, can the inverse system H;(z), where H(z)H;(z) = 1, be both BIBO stable and causal? Clearly…
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Q: In (d), spherical coordinates, why only obtain radical component of E? Why not obtain E-theta or…
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Q: Using Nyquist criterion, how many open loop poles are in the right half plane in the given system…
A: given control system
Q: Given dF1/dP = 20 +0.4P , dF2/dP, = 30 + 0.4P,, andPoss = 0.0004P? + 0.0006P? Assume the load = 1000…
A: Given P10=500 MWP20=500 MW Coordination equation method
Q: Nyquist stability criterion states that N=Z-P. In this Z denotes None of the Choices Number of…
A: According to the Nyquist stability criterion, the number of encirclements about the critical point…
Q: Assume that the Nyquist diagram of a given open-loop system G(s) looks like the following figure…
A: Control systems are represented by transfer function. This can be written in both time domain and…
Q: Use the Routh-Hurwitz criterion to determine the number of roots in the left hand plane, in the…
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Q: Type your question here Let ?⃗ = ? ???∅ ?? + ? ? 2 ???∅ ?? (a) Transform A into rectangular…
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Q: Which of the following method is a graphical method for obtaining roots of the characteristic…
A: Polar Plot: -It is a plot of magnitude and phase of G(s)H(s) in polar coordinates while frequency is…
Q: 3 The open loop transfer function of a humanoid's arm control system is given as: K G(s) = s(s + 2s…
A: Procedures to construct Root Locus: To develop a root locus, we follow the steps described below.…
Q: 5. The characteristic equation of a system is given as s'+25s²+10s+50-0. What is the number of the…
A: As per the company policy, experts are allowed to answer only 1st Question, if multiple questions…
Q: 5.5 Complex poles and zeros. Sketch the root locus with respect to K for the equation 1 + KL(s) = 0…
A: Part (a): Consider the given transfer function, Ls=1s2+3s+10=1s-1.5+j2.78s-1.5-j2.78 There are no…
Q: Problem 2, Phasor C Given the AC phasor V =4j [V] and the source frequency w, restore the…
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Q: Q.2 (a) With the aid of s-plane diagrams, explain the effect on a system's root locus if (i) A…
A: 1. if in uncompensated system if a zero is added then the root locus branch will move to its left…
Q: Qoo Use tle Poles Routh- Hurwitz criterion to find the are in the right. plane, in the Left…
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Q: Characteristic equation of a system is given by S+6S4+15S³ +30S?+44S+24=0. Determine the stability…
A: Given characteristic equation of a system CE=s5+6s4+15s3+30s2+44s+24=0
Q: Marlia has developed closed loop system for hydraulic arm for stable positioning. The closed loop…
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Q: Find the range of K using Routh criterion such that all the roots of the characteristic equation lie…
A: s3+8s2+15s+k=0s3 1 15 s2 8 ks…
Q: Use Routh-Hurwitz method, how many roots are on the right-half plane by the polynomial equation:…
A: given p(s)
Q: State the closed-loop pole distribution in the s-plane of a system whose Routh table is shown below.…
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Q: Using Routh's criterion, the number of roots characteristics equation in the right half s-plane for…
A: Given characteristics equation is, s4+2s3+2s2+3s+6=0
Q: For the system shown below, determine how the closed-loop poles are distributed in the complex…
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Q: The characteristic equation of a system is a(s) = s5 + 2s*+ 2s³ + 4s2 + 11s + 10, which one of the…
A: In this question, choose the correct option Given characteristic equation is given, solve the using…
Q: (This is a multiple choice question. Please select the True answer.) Assume that the Nyquist diagram…
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Q: Q4. (a) The behaviour of a system root locus can be estimated by identifying the poles and zeros…
A: as per our company guidelines we are supposed to answer ?️only first 3️⃣ sub-parts. Kindly repost…
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Q: Q1) Using Routh criterion determine the stability of the closed loop system that has the following…
A: The given characteristics equation is, s8+2s7+8s6+12s5+20s4+16s3+16s2=0
Q: 2. If A = 2x²,-3yz, xz² and p = 2z - x³y. Evaluate A. Vo and Ax Vo at the point (1, -1, 1).
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Q: Q4. The behaviour of a system root locus can be estimated by identifying the poles and zeros…
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Q: Q21. A system with the characteristic equation 4 + 253 + 11s? + 18s + 18 = 0 will have a closed-loop…
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Q: Find the vector component of F = 10a, - 6a, + 5a, that is parallel to G = 0.1a, +0.2a, + 0.3az…
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- Determine the range of stability using the Routh criterion for the system below? (9+ ) (+ sjsThe figure below shows the one-line diagram of a four- bus power system. The voltages, the scheduled real power and reactive powers, and the reactances of transmission lines are marked at this one line diagram (The voltages and reactances are in PU referred to 100 MW base. The active power P2 in MW is the last three digits (from right) of your registration number (i.e for the student that has a registration number 202112396, P2 =396). [10] Starting from an estimated voltage at bus 2, bus 3, and bus 4 equals V2 (0) = 1.15<0°, V3 = 1.15 < 0°, V4 1.1< 0°. 1- Specify the type of each bus and known & unknown quantities at each bus. 2- Find the elements of the second row of the admittance matrix (i.e. [Y21 Y22 Y23 Y24]). 3- Using Gauss-Siedal fınd the voltage at bus 2 after the first iteration. 4- Using Newton-Raphson, calculate: |- The value of real power (P2), at bus 2 after the first iteration. Il- The second element in the first row of the Jacobian matrix after the first iteration. 2 P2…A final year project student, Raphael, learns in EEE307 that an oscillator circuit with a differential output can be built using single-ended tuned amplifiers like the one shown below: VDD C₁=R4₁ - Vout VinM₁ Fig. 3.1 Single-ended tuned amplifier schematic (image adapted from B. Razavi ©2012)
- A network consisting of a set of generator and load buses is to be modeled with a DC power flow, for the sake of conducting a contingency analysis. The initial flows calculated with the DC power flow give the following information: f°2-4 = - 65.3 MW and fº4-5 = 13.6 MW. The following values of LODF and PTDF factors are given: PTDF54,2-4 = -0.2609, LODF2-4,4-5 = -0.6087. Calculate the contingency flow on line 2-4 due to outage of line 4-5. Select one: O a. -75.5MW O b. None of these O c. -68.85MW O d. -73.58MW O e. 75.5MW O f. -61.75MW400Ω A k=0.9 600Ω B k=0.8 66Ω 600Ω3. The discrete-sme syiem shown in Figure 2 consists of twount-delay elementi and scalar mutiplers. Wite a diftororce equation trat relatos the sutpur ya) and he input ajk]. D D Figure 2.
- 3. Peak time is the time required for the response to reach the first peak of the overshoot. * True False 4. The loops called non toughing loop if they have many node in common. True False 5. First type system has a zero static steady state error when the input function is a step function. * True FalseHow can i set up a supernode equation for this diagram? Is the nodes between V1 a super node?Can you please help me with this problem show a complete and explicit solution. Note: No shortcuts and don't skip any mathematical algebra. Get the impedance of the equivalent circuit model.
- Reconsider Problem 3.29. If Va,VbandVc are a negative-sequence set, how would the voltage and current relationships change? (a) If C1 is the complex positive-sequence voltage gain in Problem 3.29 and (b) if C2 is the negative sequence complex voltage gain, express the relationship between C1andC21- Some HV - TL use Double Circuit .instead of One, why To transmit maximum voltage stability, and enhance the steady state stability. 6 To increase the capacity of HVTL and to enhance power system stability. a- All these answers are wrong. d- To increase the impedance of HVTL and to enhance power system stability. 2- Sometimes we use Red Balls with HV.TL in specific locations ? why and where a- To prevent HV.TL from lightning, it located at earth wire over roads and rivers. To give an alarm for the planes, it located at earth wire over roads and rivers. To reduce static transient voltage, it located at earth wire over roads and rivers. d- To reduce static transient voltage, it located at earth wire everywhere. 3- How you can read this impulse voltage : 1.2/50 us and at which ? Standard Durations wave front : 1.2 tr, Wave tail duration is defined as 50 m.si as in International Standard). C Durations wave front : 1.2 tr ( where tr is the transient time ), Wave tail duration is defined…The block diagram of a mechanical transmission system shown in Figure Q11, where K is a positive gain. K (s+20) s(s+1)(s+10) Figure Q11