Homework Answers
i have marked page no on upper
corner of page so go through order. If any doubt plz post in
comment .If my solution is as per you expectations then rate me by
putting thumb up..thanks
Add Answer to:
R(s)) C(s) 1. For the unity feedback system shown above where K(s2 +2s +5) G(S)2(s +3)...
R(S) C(s) G(s) Figure P3 G(S) K(s2 – 2s + 2) s(s + 1)(8 +2) Problem...
R(S) C(s) G(s) Figure P3 G(S) K(s2 – 2s + 2) s(s + 1)(8 +2) Problem 4) (25 points) Consider the same unity feedback control system given in Figure P3 and do the following: a. Determine the system type (type 0, type 1, type 2, etc.) and justify it. (05 points) b. Suppose that 10% maximum overshoot is required as a transient response specification. Find the steady-state error for this P-controlled system, where K = 0.24 for a unit step...
Consider the unity feedback system shown below R(s) C(s) Gp(s) 5(s+6 with G,(6)(s +2)(s+25) You are...
Consider the unity feedback system shown below R(s) C(s) Gp(s) 5(s+6 with G,(6)(s +2)(s+25) You are given that s+27s +55s+30 is a stable polynomial. a. What is the system type? For the questions below (in this Problem), set K-1 b. Determine the error constants Ko, K, and K, (also known as K,K, and K, c. Determine the steady-state errors eo, ei, and e2 (also known as epey, and e.) d. What is the steady-state error if the input is 5tu(t)?
For a unity feedback system as shown in Fig. 1, where 10(92 - 2s+2) G(8) =...
For a unity feedback system as shown in Fig. 1, where 10(92 - 2s+2) G(8) = (5+1)(+ 2s +1) the Nyquist plot is shown in Figure 2 (a) Complete the Nyquist stability analysis for the system (b) If the system becomes G(s) = - 10(32 +28+2) (8 + 1)(s2 - 2s + 1)' with the Nyquist plot shown in Figure 3, is the closed-loop system stable? Complete the Nyquist stability analysis on this system. Figure 1: Pre- Imaginary Axis Imaginary...
Problem 3 A unity feedback system has the loop transfer function G(s) = Kata) s(s +...
Problem 3 A unity feedback system has the loop transfer function G(s) = Kata) s(s + (a) Find the breakway and entry points on the real axis. (b) Find the gain and the roots when the real part of the complex roots is located at -2 (c) Sketch the root locus. Problem 4 The forward path G(s) of a unity feedback system with input R(s) and output Y (s) is given by G(o) 106I) (a) What is the type of...
5. Consider a plant given by G()+2(s+1 in a un (s+2)(2s+1) 1n a unity feedback structure. (a) Det...
5. Consider a plant given by G()+2(s+1 in a un (s+2)(2s+1) 1n a unity feedback structure. (a) Determine the system type and the steady state error with respect to a tracking polynomial reference input with a proportional controller, D(s)5. (b) Verify your result using MATLAB by plotting unit step and ramp responses. Use the Matlab command 1sim() for ramp input. Attach the code and the plots.
5. Consider a plant given by G()+2(s+1 in a un (s+2)(2s+1) 1n a unity...
please answer Question 1 For the unity feedback system of figure 1.1, where Not yet answered K(s+3Xs+9) G(8) sts+6Xs...
please answer
Question 1 For the unity feedback system of figure 1.1, where Not yet answered K(s+3Xs+9) G(8) sts+6Xs+4Xs+2) Marked out of 3.00 find the value of K to yield a steady-state error of 0.4 for a ramp input of 23tu(t) P Flag question R(s) + E(s) C(s) G(s) Select one: a. K 76 b. K 28 C. K = 5625 d. K 273 e. K 102
Question 1 For the unity feedback system of figure 1.1, where Not yet...
3) (10 pts) Consider the unity feedback system as shown in Figure 1, where s(s+1)(s+5s+6) (a) For...
3) (10 pts) Consider the unity feedback system as shown in Figure 1, where s(s+1)(s+5s+6) (a) For C(s) K, sketch the root locus (b) Based on your root locus in (a), can you find a value of gain K, such that the closed- loop system will have a settling time of 1 second under a step input? Justify your answer.
3) (10 pts) Consider the unity feedback system as shown in Figure 1, where s(s+1)(s+5s+6) (a) For C(s) K, sketch...
[7] Sketch the root locus for the unity feedback system whose open loop transfer function is K G(s) Draw the root lo...
[7] Sketch the root locus for the unity feedback system whose open loop transfer function is K G(s) Draw the root locus of the system with the gain Kas a variable. s(s+4) (s2+4s+20) Determine asymptotes, centroid, breakaway point, angle of departure, and the gain at which root locus crosses ja-axis. A control system with type-0 process and a PID controller is shown below. Design the [8 parameters of the PID controller so that the following specifications are satisfied. =100 a)...
1. The open loop system G()l be placed into a unity feedback system s2(s+1) as shown below. a. Sk...
please answer all parts and show the related work. thank you!
especially the matlab parts!
1. The open loop system G()l be placed into a unity feedback system s2(s+1) as shown below. a. Sketch the Root Locus of G(s) by hand and compare your results with Matlab. Include your sketch and the Matlab plot. b. This system is unstable for all positive values of K. Explain why. c. Show with a hand sketch and Matlab plot of the root locus...
Given the unity feedback system of Figure 1, find the following The range of K that keeps the system stable The v...
Given the unity feedback system of Figure 1, find the following The range of K that keeps the system stable The value of K that makes the system oscillate The frequency of oscillation when K is set to the value that makes the system oscillate with: K(s-1)(s-2) (s+2)(s2+2s + 2) G(s) C(s) R(s) E(s) + G(s) Figure: 1
Given the unity feedback system of Figure 1, find the following The range of K that keeps the system stable The value...
R(S) C(s) G(s) Figure P3 G(S) K(s2 – 2s + 2) s(s + 1)(8 +2) Problem 4) (25 points) Consider the same unity feedback control system given in Figure P3 and do the following: a. Determine the system type (type 0, type 1, type 2, etc.) and justify it. (05 points) b. Suppose that 10% maximum overshoot is required as a transient response specification. Find the steady-state error for this P-controlled system, where K = 0.24 for a unit step...
Consider the unity feedback system shown below R(s) C(s) Gp(s) 5(s+6 with G,(6)(s +2)(s+25) You are given that s+27s +55s+30 is a stable polynomial. a. What is the system type? For the questions below (in this Problem), set K-1 b. Determine the error constants Ko, K, and K, (also known as K,K, and K, c. Determine the steady-state errors eo, ei, and e2 (also known as epey, and e.) d. What is the steady-state error if the input is 5tu(t)?
For a unity feedback system as shown in Fig. 1, where 10(92 - 2s+2) G(8) = (5+1)(+ 2s +1) the Nyquist plot is shown in Figure 2 (a) Complete the Nyquist stability analysis for the system (b) If the system becomes G(s) = - 10(32 +28+2) (8 + 1)(s2 - 2s + 1)' with the Nyquist plot shown in Figure 3, is the closed-loop system stable? Complete the Nyquist stability analysis on this system. Figure 1: Pre- Imaginary Axis Imaginary...
Problem 3 A unity feedback system has the loop transfer function G(s) = Kata) s(s + (a) Find the breakway and entry points on the real axis. (b) Find the gain and the roots when the real part of the complex roots is located at -2 (c) Sketch the root locus. Problem 4 The forward path G(s) of a unity feedback system with input R(s) and output Y (s) is given by G(o) 106I) (a) What is the type of...
5. Consider a plant given by G()+2(s+1 in a un (s+2)(2s+1) 1n a unity feedback structure. (a) Determine the system type and the steady state error with respect to a tracking polynomial reference input with a proportional controller, D(s)5. (b) Verify your result using MATLAB by plotting unit step and ramp responses. Use the Matlab command 1sim() for ramp input. Attach the code and the plots.
5. Consider a plant given by G()+2(s+1 in a un (s+2)(2s+1) 1n a unity...
please answer
Question 1 For the unity feedback system of figure 1.1, where Not yet answered K(s+3Xs+9) G(8) sts+6Xs+4Xs+2) Marked out of 3.00 find the value of K to yield a steady-state error of 0.4 for a ramp input of 23tu(t) P Flag question R(s) + E(s) C(s) G(s) Select one: a. K 76 b. K 28 C. K = 5625 d. K 273 e. K 102
Question 1 For the unity feedback system of figure 1.1, where Not yet...
3) (10 pts) Consider the unity feedback system as shown in Figure 1, where s(s+1)(s+5s+6) (a) For C(s) K, sketch the root locus (b) Based on your root locus in (a), can you find a value of gain K, such that the closed- loop system will have a settling time of 1 second under a step input? Justify your answer.
3) (10 pts) Consider the unity feedback system as shown in Figure 1, where s(s+1)(s+5s+6) (a) For C(s) K, sketch...
[7] Sketch the root locus for the unity feedback system whose open loop transfer function is K G(s) Draw the root locus of the system with the gain Kas a variable. s(s+4) (s2+4s+20) Determine asymptotes, centroid, breakaway point, angle of departure, and the gain at which root locus crosses ja-axis. A control system with type-0 process and a PID controller is shown below. Design the [8 parameters of the PID controller so that the following specifications are satisfied. =100 a)...
please answer all parts and show the related work. thank you!
especially the matlab parts!
1. The open loop system G()l be placed into a unity feedback system s2(s+1) as shown below. a. Sketch the Root Locus of G(s) by hand and compare your results with Matlab. Include your sketch and the Matlab plot. b. This system is unstable for all positive values of K. Explain why. c. Show with a hand sketch and Matlab plot of the root locus...
Given the unity feedback system of Figure 1, find the following The range of K that keeps the system stable The value of K that makes the system oscillate The frequency of oscillation when K is set to the value that makes the system oscillate with: K(s-1)(s-2) (s+2)(s2+2s + 2) G(s) C(s) R(s) E(s) + G(s) Figure: 1
Given the unity feedback system of Figure 1, find the following The range of K that keeps the system stable The value...
Most questions answered within 3 hours.
-
An infinite sheet of charge that has a surface charge density of
39 nC/m2 lies in...
asked 20 minutes ago -
After watching the lectures I am still having a hard time
understanding these equations.
1. The...
asked 1 hour ago -
Testing:
H0:μ=56.9
H1:μ<56.9
Your sample consists of 23 subjects, with a mean of 56.3 and
standard...
asked 1 hour ago -
straight wire, labeled as Wire A, lies horizontally on a
tabletop and is oriented to run...
asked 1 hour ago -
For a Chi-Squared Goodness of Fit Test about a uniform
distribution, complete the table.
Round to...
asked 1 hour ago -
Milk of magnesia is only slightly soluble in water. Kc for the
reaction Mg(OHs)(s)>Mg2+(a) + 2OH-1(aq)...
asked 1 hour ago -
Excel's HYPGEOM.DIST function can be used to compute _____.
a. both hypergeometric probabilities and cumulative
hypergeometric...
asked 2 hours ago -
The rocket used for the human lunar missions was the Saturn V
rocket. At liftoff the...
asked 1 hour ago -
1. The East Street Bagel Shop has a weekly demand for 3,500
bagels, which they make...
asked 1 hour ago -
paraphrasing each paragraph
“Where two or more persons knowingly act together unlawfully,
the act of each...
asked 2 hours ago -
The lateral line system in fish is contained which of the
following?
chemoreceptors
photoreceptors
mechanoreceptors
odor...
asked 2 hours ago -
Find the y-intercept of y =-5 x. The y-intercept of y equals
negative 5 x is______...
asked 2 hours ago