example like this i want , theres no force , please solve 3 also .
if you have any question ask.Homework Answers
3)
![CE) pact) k s uc 1 YCE) 2()> 499 Klay) cé-y) (Free Body diagram] # Apply Newtons and Law m=1700 mol = -K («-y) - Clary) c=27](http://img.homeworklib.com/questions/598eff00-5691-11eb-a57b-a51099c35c1c.png?x-oss-process=image/resize,w_560)
4)
Response of system when input is UNIT STEP.
Response of system when input Sinusoidal with unit Amplitude & Frequency.
I hope this solution would help you to clear your doubts.
If you have any queries regarding this solution Let me know in comment section I will definitely help you.
Good luck and Thanks..
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3
and 4 , captures of (mat lab simulink)
example like this i want , theres...
All i want is the whole MATLAB code for this nothing else
All i want is the whole MATLAB code for this nothing
else
H(s) where, Q-5, and 40-2000, rad./sec. a) Use MATLAB to determine magnitude response and phase response of the filter. b) What type of filter is it? c) What will be the output of this filter if input x,() SCos(1001). Show all calculations step by step as shown in Lecture-20 d) Verify your answer of part (c) by using Simulink model. Attach the snapshot of Simulink model and output....
Matlab Simulink please list all the steps Extra Credit: Simulink Disturbance Analysis D(s) Controller Plant Gp(s)...
Matlab Simulink
please list all the steps
Extra Credit: Simulink Disturbance Analysis D(s) Controller Plant Gp(s) Ge REs 92.9s213.63s 1 97.6s (0.1s + 1) 127 s(s +1)(s +2)(s 5) (s 10) Ge(s) Gp (s) The controller for the system above was designed to accurately track a variety of input signals for the given plant/process. Verify that the feedback system is well suited to this task by creating a model in Simulink and performing the following: 1. Create a model to:...
Tutorial -On PID control (Control System: Instructor slides and lab) Consider a second order mass...
part 2 & part 3 please...
Tutorial -On PID control (Control System: Instructor slides and lab) Consider a second order mass-force system to study its behavior under various forms of PID control xtn fon force In Disturbance force: 50) (i.e. wind force) Part I (dealing with the plant/process) 1. What is the model of this system, in other words, write the ODE of the system 2. Derive the transfer function of the above system from Fls) to X(s) 3. What...
3. Consider this system: 4953 +9953s2 + 140s + 36 877s4 + 110583 + 7085 -...
3. Consider this system: 4953 +9953s2 + 140s + 36 877s4 + 110583 + 7085 - 5s - 1 K a. What is the open-loop transfer function? b. What are the poles of the open-loop transfer function? C. Which are the dominant poles? What is the closed-loop transfer function? Generate a root locus plot that show ALL poles and grids for natural frequency and damping. f. What are Ker and Per? 8 Assume that the feedback gain is equal to...
Question 3 The temperature (in °C) in the water heating process is given by the transfer...
Question 3 The temperature (in °C) in the water heating process is given by the transfer function T(s) 3 U(s) TS+2 (a) Sketch THREE forms of input force function with its time response graph. (3 marks) (b) (12 marks) Calculate the time response of the system when, i) unit impulse is imposed on the system. ii) unit step is imposed on the system. (c) Sketch the diagrams of two responses and label the relevant values, given t = 5. (5...
part II is what I need help one. part 1 is also attached for your reference...
part II is what I need help one. part 1 is also
attached for your reference
Part II: Low Pass Filter contd. Noise Removal To observe the noise removal capabilities of a low -pass filter, we will add a second input to the system to simulate noise Step 1: Alter your Simulink model by adding another sine wave function and use a Sum block to add the inputs together as the new input to the system. The second sine function...
Please do h) and i). The answers have to match (show 3 or 4 answers for...
Please do h) and i). The answers have to match (show 3 or 4
answers for each to show that they match I do not need 50).
+ a D b 1. Consider the signal flow diagram representing a r/n)- y[n] discrete-time LTI system as shown, with a = 0.9 and b= -0.2. Assume initial rest conditions. In each case, explain your work. D a. (1 mark) Show that the difference equation for this system is y[n] – a •y[n...
Please solve 3-1, 3-2, 3-3. I am most interested in the solution for 3-3 however. Please...
Please solve 3-1, 3-2, 3-3.
I am most interested in the solution for 3-3 however.
Please show all steps clearly
Thank you
Figure (a) shows a mechanical vibratory system. When 2 N of force (step input) is applied to system, the mass Oscillates, as shown in Figure (b). Assuming that the mechanical system show here is at rest before excitation force f(t) = 2 N is given. The displacement x is measured from the equilibrium position. f(t) = 2 N...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...
I want the answer for Part B I have the answer for Part A-Q1 I uploaded it 2 H I F ua 212 < > 0.5% on Y; 4Ω Fig...
I want the answer for Part B I have the answer for Part
A-Q1 I uploaded it
2 H I F ua 212 < > 0.5% on Y; 4Ω Figure 1 PART A: MATHEMATICAL MODEL AND TIME DOMAIN ANALYSIS (5%) 1) For the circuit of Figure 1, determine the transfer function relating the output voltage (s) to the input voltage V(s). Assuming zero initial condition, obtain the output response vo(t) to an input step with 6V amplitude, that is vi(t)6...
All i want is the whole MATLAB code for this nothing
else
H(s) where, Q-5, and 40-2000, rad./sec. a) Use MATLAB to determine magnitude response and phase response of the filter. b) What type of filter is it? c) What will be the output of this filter if input x,() SCos(1001). Show all calculations step by step as shown in Lecture-20 d) Verify your answer of part (c) by using Simulink model. Attach the snapshot of Simulink model and output....
Matlab Simulink
please list all the steps
Extra Credit: Simulink Disturbance Analysis D(s) Controller Plant Gp(s) Ge REs 92.9s213.63s 1 97.6s (0.1s + 1) 127 s(s +1)(s +2)(s 5) (s 10) Ge(s) Gp (s) The controller for the system above was designed to accurately track a variety of input signals for the given plant/process. Verify that the feedback system is well suited to this task by creating a model in Simulink and performing the following: 1. Create a model to:...
part 2 & part 3 please...
Tutorial -On PID control (Control System: Instructor slides and lab) Consider a second order mass-force system to study its behavior under various forms of PID control xtn fon force In Disturbance force: 50) (i.e. wind force) Part I (dealing with the plant/process) 1. What is the model of this system, in other words, write the ODE of the system 2. Derive the transfer function of the above system from Fls) to X(s) 3. What...
3. Consider this system: 4953 +9953s2 + 140s + 36 877s4 + 110583 + 7085 - 5s - 1 K a. What is the open-loop transfer function? b. What are the poles of the open-loop transfer function? C. Which are the dominant poles? What is the closed-loop transfer function? Generate a root locus plot that show ALL poles and grids for natural frequency and damping. f. What are Ker and Per? 8 Assume that the feedback gain is equal to...
Question 3 The temperature (in °C) in the water heating process is given by the transfer function T(s) 3 U(s) TS+2 (a) Sketch THREE forms of input force function with its time response graph. (3 marks) (b) (12 marks) Calculate the time response of the system when, i) unit impulse is imposed on the system. ii) unit step is imposed on the system. (c) Sketch the diagrams of two responses and label the relevant values, given t = 5. (5...
part II is what I need help one. part 1 is also
attached for your reference
Part II: Low Pass Filter contd. Noise Removal To observe the noise removal capabilities of a low -pass filter, we will add a second input to the system to simulate noise Step 1: Alter your Simulink model by adding another sine wave function and use a Sum block to add the inputs together as the new input to the system. The second sine function...
Please do h) and i). The answers have to match (show 3 or 4
answers for each to show that they match I do not need 50).
+ a D b 1. Consider the signal flow diagram representing a r/n)- y[n] discrete-time LTI system as shown, with a = 0.9 and b= -0.2. Assume initial rest conditions. In each case, explain your work. D a. (1 mark) Show that the difference equation for this system is y[n] – a •y[n...
Please solve 3-1, 3-2, 3-3.
I am most interested in the solution for 3-3 however.
Please show all steps clearly
Thank you
Figure (a) shows a mechanical vibratory system. When 2 N of force (step input) is applied to system, the mass Oscillates, as shown in Figure (b). Assuming that the mechanical system show here is at rest before excitation force f(t) = 2 N is given. The displacement x is measured from the equilibrium position. f(t) = 2 N...
For the system shown in Fig. 1, solve the following problems. (a) Find the transfer function, G(s)X2 (s)/F(s) (b) Does the system oscillate with a unit step input (f (t))? Explain the reason (c) Decide if the system(x2 (t)) is stable with a unit step input (f (t))? Explain the reason 1. 320) 8 kg 2 N/m 4N-s/m 2N-s/m Fig. 1 2. There are two suspensions for a car as shown in Fig. 2 (a) Find the equations of each...
I want the answer for Part B I have the answer for Part
A-Q1 I uploaded it
2 H I F ua 212 < > 0.5% on Y; 4Ω Figure 1 PART A: MATHEMATICAL MODEL AND TIME DOMAIN ANALYSIS (5%) 1) For the circuit of Figure 1, determine the transfer function relating the output voltage (s) to the input voltage V(s). Assuming zero initial condition, obtain the output response vo(t) to an input step with 6V amplitude, that is vi(t)6...
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