need explain to detail. the graph is on the second picture
is on the second picture
10T 2 E-2 12 -10 -10 -8 4--2 0 2 Real Part
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Need explain to detail. the graph is on the second picture is on the second picture
10T 2 E-2 12 -10 -10 -8 4--2 0 2 Real Part C) Given the following graph of the poles in a compl...
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is in the first picture
10T 2 E-2 12 -10 -10 -8 4--2 0 2 Real Part C) Given the following graph of the poles in a complex plane obtain: a. b. 1. The characteristic polynomial İfapplicable compute ,a,,r,t" (Time to reach steady state) and a Ifthe system has a unit step input. what will be the final value xss? Draw the equivalent electrical system. Draw the equivalent mechanical system. d. e.
10T 2 E-2 12 -10...
1. Consider a transfer function of a system 25 s? + 4s + 25 a) Simulation...
1. Consider a transfer function of a system 25 s? + 4s + 25 a) Simulation i. Using any simulation software package, plot the poles on the s-plane. ii. Using unit step input, plot the transient response when there is no additional third pole to the system. iii. Using unit step input, plot the transient response when there is an additional third pole occur at -200, -20, -10, and -2. Plot them in a single graph. Normalize all the plots...
Can someone help me with problem 4? You dont need to find the answers for problem...
Can someone help me with problem 4? You dont need to find the
answers for problem 6. Just use the transfer function from problem
6 to do problem 4.
6. Given the unity feedback system with the forward transfer function KG)H(s + 2)(s + 10) a) b) c) d) e) Sketch the root locus Find the breakaway point Find the gain at the breakaway point If one of the poles of the closed-loop system is at s--11, find the other...
1. The change of position of the center of mass of a rigid body in a mechanical system is being monitored. At time t 0, when the initial conditions of the system were x = 0.1 m and x -0m/s, a ste...
1. The change of position of the center of mass of a rigid body in a mechanical system is being monitored. At time t 0, when the initial conditions of the system were x = 0.1 m and x -0m/s, a step input of size 10 N began to apply to the system. The response of the system was represented by this differential equation: 2r + 110x + 500 x = 10 a) Write the order of the system, its...
A second-order process is described by its transfer function G(s) = (s+1)(843) and a PI controlle...
A second-order process is described by its transfer function G(s) = (s+1)(843) and a PI controller by Consider feedback control with unit feedback gain as shown in Figure 1 A disturbance D(s) exists, and to achieve zero steady-state error, a small integral component is applied. Technical limitations restrict the controller gain kp to values of 0.2 or less. The goal is to examine the influence of the controller parameter k on the dynamic response. D(s) Controller Process X(s) Y(s) Figure...
need parts 1, 2, 11, 13 For each of the following systems and inputs: Exercise 3.1...
need parts 1, 2, 11, 13
For each of the following systems and inputs: Exercise 3.1 1. Check whether the system is stable. 2. If the system is stable, use frequency response to determine the steady state response? 3. For a stable system, the time to reach steady state can be estimated as four times the time constant of the slowest pole. When a system is stable, all poles are in the left half plane (LHP). The slowest pole is...
KKKM3473/KKKM3314/KKKM3344 The characteristic polynomial of a feedback control system is given by 5. where K>0. Dete...
KKKM3473/KKKM3314/KKKM3344 The characteristic polynomial of a feedback control system is given by 5. where K>0. Determine the range of values of K for which the system is stable. (10 marks) The closed loop poles of a second order system are located at points -3.5+1.5t and 6. -3.5-1.51 on the complex plane. Calculate the damped natural frequency, ωd. (10 marks) 7. The Bode plots for a first order dynamic system is shown in Figure 3. Estimate the magnitude and phase when...
Higher Colleges of Technology Faculty of Electronic Engineering Class Assignment 4 Second Order Systems EEC 4043:...
Higher Colleges of Technology Faculty of Electronic Engineering Class Assignment 4 Second Order Systems EEC 4043: Control Systems Score from 5 Student Name Student ID # You are required to analyze a DC motor speed control system shown in Figure I and 2 below. Figure 1 shows the equivalent circuit diagram of the DC motor control system, while Figure 2 shows the block diagram of the system feedback control G(s) drmanvee Motor Figare 2: The System Feedhack syacm daprams Figue...
please I need it urgent thanks algorithms second picture is the graph 2.3 Graphs and BFS-DFS...
please I need it urgent thanks algorithms second
picture is the graph
2.3 Graphs and BFS-DFS 5 points each I. Draw the adjacency matrix for the graph A on the last page. 2. Show the order in which a breadth first traversal will print out the vertices? Assume that if the algorithm has a choice of which vertex to visit, it visits the vertex with the lower number. 3. Find a topological ordering for the graph B on the last...
draw step by step, this is C++. The first picture is the problem and the second...
draw step by step, this is C++. The first picture is the problem
and the second picture is an example
Q2. (30 pts) Find the minimum spanning tree using Prim's algorithm for the following graph. For this question, the solution must be provided step by step as shown in your textbook in Figures 9.51 in page 415. 6 B F 4 2 7 A 3 1 5 D 5 N 3 G C h 1 E 9 2 VI V2...
picture not posting
is in the first picture
10T 2 E-2 12 -10 -10 -8 4--2 0 2 Real Part C) Given the following graph of the poles in a complex plane obtain: a. b. 1. The characteristic polynomial İfapplicable compute ,a,,r,t" (Time to reach steady state) and a Ifthe system has a unit step input. what will be the final value xss? Draw the equivalent electrical system. Draw the equivalent mechanical system. d. e.
10T 2 E-2 12 -10...
1. Consider a transfer function of a system 25 s? + 4s + 25 a) Simulation i. Using any simulation software package, plot the poles on the s-plane. ii. Using unit step input, plot the transient response when there is no additional third pole to the system. iii. Using unit step input, plot the transient response when there is an additional third pole occur at -200, -20, -10, and -2. Plot them in a single graph. Normalize all the plots...
Can someone help me with problem 4? You dont need to find the
answers for problem 6. Just use the transfer function from problem
6 to do problem 4.
6. Given the unity feedback system with the forward transfer function KG)H(s + 2)(s + 10) a) b) c) d) e) Sketch the root locus Find the breakaway point Find the gain at the breakaway point If one of the poles of the closed-loop system is at s--11, find the other...
1. The change of position of the center of mass of a rigid body in a mechanical system is being monitored. At time t 0, when the initial conditions of the system were x = 0.1 m and x -0m/s, a step input of size 10 N began to apply to the system. The response of the system was represented by this differential equation: 2r + 110x + 500 x = 10 a) Write the order of the system, its...
A second-order process is described by its transfer function G(s) = (s+1)(843) and a PI controller by Consider feedback control with unit feedback gain as shown in Figure 1 A disturbance D(s) exists, and to achieve zero steady-state error, a small integral component is applied. Technical limitations restrict the controller gain kp to values of 0.2 or less. The goal is to examine the influence of the controller parameter k on the dynamic response. D(s) Controller Process X(s) Y(s) Figure...
need parts 1, 2, 11, 13
For each of the following systems and inputs: Exercise 3.1 1. Check whether the system is stable. 2. If the system is stable, use frequency response to determine the steady state response? 3. For a stable system, the time to reach steady state can be estimated as four times the time constant of the slowest pole. When a system is stable, all poles are in the left half plane (LHP). The slowest pole is...
KKKM3473/KKKM3314/KKKM3344 The characteristic polynomial of a feedback control system is given by 5. where K>0. Determine the range of values of K for which the system is stable. (10 marks) The closed loop poles of a second order system are located at points -3.5+1.5t and 6. -3.5-1.51 on the complex plane. Calculate the damped natural frequency, ωd. (10 marks) 7. The Bode plots for a first order dynamic system is shown in Figure 3. Estimate the magnitude and phase when...
Higher Colleges of Technology Faculty of Electronic Engineering Class Assignment 4 Second Order Systems EEC 4043: Control Systems Score from 5 Student Name Student ID # You are required to analyze a DC motor speed control system shown in Figure I and 2 below. Figure 1 shows the equivalent circuit diagram of the DC motor control system, while Figure 2 shows the block diagram of the system feedback control G(s) drmanvee Motor Figare 2: The System Feedhack syacm daprams Figue...
please I need it urgent thanks algorithms second
picture is the graph
2.3 Graphs and BFS-DFS 5 points each I. Draw the adjacency matrix for the graph A on the last page. 2. Show the order in which a breadth first traversal will print out the vertices? Assume that if the algorithm has a choice of which vertex to visit, it visits the vertex with the lower number. 3. Find a topological ordering for the graph B on the last...
draw step by step, this is C++. The first picture is the problem
and the second picture is an example
Q2. (30 pts) Find the minimum spanning tree using Prim's algorithm for the following graph. For this question, the solution must be provided step by step as shown in your textbook in Figures 9.51 in page 415. 6 B F 4 2 7 A 3 1 5 D 5 N 3 G C h 1 E 9 2 VI V2...
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