The simulink part can be neglected as I can manage. Just need the mathematical solution for all the parts (specially part f)
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The simulink part can be neglected as I can manage. Just need
the mathematical solution for...
Please only solve part C Assume the following state space representation of a discrete-time servomotor system. (As a review for the Final Exam, you might check this state space representation with th...
Please only solve part C
Assume the following state space representation of a discrete-time servomotor system. (As a review for the Final Exam, you might check this state space representation with the difference equation in Problem 1 on Homework 2. This parenthetical comment is not a required part for Homework 8.) 2. 0.048371 u(n) 1.9048x(n) lo.04679 [1,0]x(n) y(n) Compute the open-loop eigenvalues of the system. That is, find the eigenvalues of Ф. Check controllability of the system. Or, answer the...
(please answer) viii. Finally simulate the system in matlap (simulink) and confirm your results. for both...
(please answer)
viii. Finally simulate the system in matlap (simulink)
and confirm your results. for both (iv) and (v)
The roll angle control of an airplane is achieved by using the torque developed by the ailerons, as shown below. A linear model of the roll control system for a small experimental aircraft is shown also below, where Vi(t) is the flow of fluid into a hydraulic cylinder. Given the following dynamic electrk-mechanical (aerodynamics) system. R, 1. Draw the pole-zero diagram...
Assignment: Let us consider the same network of HW3, Figure 1, with the parameter reported in Tab...
Assignment: Let us consider the same network of HW3, Figure 1, with the parameter reported in Table 1. 10 V 1 2 ΙΩ R2 1 H Figure l Table l 1. Which is the order of the system How many input it has? Comment your answer. 2. Obtain (manually) a state space representation of the circuit in the form x(t) - Ax(t) + Bu(t) 3. Assuming that you variable of interest is the current is resistor R1, write an output...
Problem 8: A simplified model of a glider is where y is the flight path angle in radians, v is the airspeed in m/sec, n -L/mg is the load factor, L is the lift in Newtons, m is the mass in kg, and...
Problem 8: A simplified model of a glider is where y is the flight path angle in radians, v is the airspeed in m/sec, n -L/mg is the load factor, L is the lift in Newtons, m is the mass in kg, and k 61.6594 and k 4.8747x103 are constants for the glider. (a) Given that y -0.15 rad, and the airspeed is 50.8691 m/sec, find the necessary load factor to maintain equilibriunm (b) Let the state vector be [7...
I got help with task 1 and 2 . can you help me with task 3 and 4 of this question. please help me...
I got help with task 1 and 2 . can you help me with task 3 and 4
of this question. please help me step for step thanks.
A signal x[n] modulated by multiplying it by a carrier wave cos(2*p1"/cm) to form the signal z[n] = cos(2"p1"Vcm)x[n] ·The modulated signal z[n] multiplies with the same carrier wave to give the signal y[n]=cos(2*pi"Vcm)z[n] and filters with an LT-system to give x-hat [n] . all this are described by the picture below...
Question 7. (15 marks] Consider the discrete time system given by the state equation 07 x4...
Question 7. (15 marks] Consider the discrete time system given by the state equation 07 x4 + 11-18 8/11 - 10/n VIK) = 10 11 **) 1. [3 marks) Determine if the system is (a) Lyapunov state, syptereally ) Bounded input Bounded Output (BIBO) stable. Provide brief explanations 2. (8 marks) Design a discrete-time state feedback control law of the form - Kxkl by finding the gain K to place the closed-loop eigenvalues at 0.5 3. [4 marks) Suppose the...
solve quastion 3,4 and 5 B. Tasks and Guide 1. System description and Mathematical modeling The...
solve quastion 3,4 and 5
B. Tasks and Guide 1. System description and Mathematical modeling The antenna positioning system is shown in Fig. 1. In this problem we consider the yaw angle control system, where 0(t) is the yaw angle. Suppose that the gain of the power amplifier is 5 , and that the gear ratio and the angle sensor (the shaft encoder and the data hold) are such that (t)= 0.40(t) where the units of v,(t) are volts and...
I can do the first part of the question 1a, could someone show me step by...
I can do the first part of the question 1a, could
someone show me step by step how to do do 1b?
) Y.Ya..., Y, form a random sample from a probability distribution with cumu- lative distribution function Fy (u) and probability density function fr(u). Let Write the cumulative distribution function for Ya) in terms of Fy(y) and hence show that the probability density function for Yy is fy(1)(y) = n(1-Fr (v))"-ify(y). [8 marks] (b) An engineering system consists of...
Would someone help me with the last 3 questions here, I got the previous ones but need help with the last 3 in red. Than...
Would someone help me with the
last 3 questions here, I got the previous ones but need help with
the last 3 in red. Thank you
Transcribed:
Now that you nd a rst order system of ODEs, you can solve it
using the Huens method ac-
cording to the material you covered in computational module 2. A
template of the code which
will help you to get started is also available. Attach the complete
code as a pdf page to...
Please give me detailed solutions step by step, I am just trying to learn, thank you...
Please give me detailed solutions step by step, I am just trying
to learn, thank you so much in advance! 2016
QUESTION 1 Q 1(a) Obtain the z-Transforms of each of the following signals ITOTAL MARKS: 25] [6 Marks In] = cos (-_-) uln] 2 marks] u nun - marks] 0-S Q 1(b) The signal x[n], (of length 4 samples) is defined as: x[n-(1,-1,12) [7 Marks] (i) Write down the Discrete-time Fourier Transform (DTFT) of xn [2 marks] (i) pn]...
Please only solve part C
Assume the following state space representation of a discrete-time servomotor system. (As a review for the Final Exam, you might check this state space representation with the difference equation in Problem 1 on Homework 2. This parenthetical comment is not a required part for Homework 8.) 2. 0.048371 u(n) 1.9048x(n) lo.04679 [1,0]x(n) y(n) Compute the open-loop eigenvalues of the system. That is, find the eigenvalues of Ф. Check controllability of the system. Or, answer the...
(please answer)
viii. Finally simulate the system in matlap (simulink)
and confirm your results. for both (iv) and (v)
The roll angle control of an airplane is achieved by using the torque developed by the ailerons, as shown below. A linear model of the roll control system for a small experimental aircraft is shown also below, where Vi(t) is the flow of fluid into a hydraulic cylinder. Given the following dynamic electrk-mechanical (aerodynamics) system. R, 1. Draw the pole-zero diagram...
Assignment: Let us consider the same network of HW3, Figure 1, with the parameter reported in Table 1. 10 V 1 2 ΙΩ R2 1 H Figure l Table l 1. Which is the order of the system How many input it has? Comment your answer. 2. Obtain (manually) a state space representation of the circuit in the form x(t) - Ax(t) + Bu(t) 3. Assuming that you variable of interest is the current is resistor R1, write an output...
Problem 8: A simplified model of a glider is where y is the flight path angle in radians, v is the airspeed in m/sec, n -L/mg is the load factor, L is the lift in Newtons, m is the mass in kg, and k 61.6594 and k 4.8747x103 are constants for the glider. (a) Given that y -0.15 rad, and the airspeed is 50.8691 m/sec, find the necessary load factor to maintain equilibriunm (b) Let the state vector be [7...
I got help with task 1 and 2 . can you help me with task 3 and 4
of this question. please help me step for step thanks.
A signal x[n] modulated by multiplying it by a carrier wave cos(2*p1"/cm) to form the signal z[n] = cos(2"p1"Vcm)x[n] ·The modulated signal z[n] multiplies with the same carrier wave to give the signal y[n]=cos(2*pi"Vcm)z[n] and filters with an LT-system to give x-hat [n] . all this are described by the picture below...
Question 7. (15 marks] Consider the discrete time system given by the state equation 07 x4 + 11-18 8/11 - 10/n VIK) = 10 11 **) 1. [3 marks) Determine if the system is (a) Lyapunov state, syptereally ) Bounded input Bounded Output (BIBO) stable. Provide brief explanations 2. (8 marks) Design a discrete-time state feedback control law of the form - Kxkl by finding the gain K to place the closed-loop eigenvalues at 0.5 3. [4 marks) Suppose the...
solve quastion 3,4 and 5
B. Tasks and Guide 1. System description and Mathematical modeling The antenna positioning system is shown in Fig. 1. In this problem we consider the yaw angle control system, where 0(t) is the yaw angle. Suppose that the gain of the power amplifier is 5 , and that the gear ratio and the angle sensor (the shaft encoder and the data hold) are such that (t)= 0.40(t) where the units of v,(t) are volts and...
I can do the first part of the question 1a, could
someone show me step by step how to do do 1b?
) Y.Ya..., Y, form a random sample from a probability distribution with cumu- lative distribution function Fy (u) and probability density function fr(u). Let Write the cumulative distribution function for Ya) in terms of Fy(y) and hence show that the probability density function for Yy is fy(1)(y) = n(1-Fr (v))"-ify(y). [8 marks] (b) An engineering system consists of...
Would someone help me with the
last 3 questions here, I got the previous ones but need help with
the last 3 in red. Thank you
Transcribed:
Now that you nd a rst order system of ODEs, you can solve it
using the Huens method ac-
cording to the material you covered in computational module 2. A
template of the code which
will help you to get started is also available. Attach the complete
code as a pdf page to...
Please give me detailed solutions step by step, I am just trying
to learn, thank you so much in advance! 2016
QUESTION 1 Q 1(a) Obtain the z-Transforms of each of the following signals ITOTAL MARKS: 25] [6 Marks In] = cos (-_-) uln] 2 marks] u nun - marks] 0-S Q 1(b) The signal x[n], (of length 4 samples) is defined as: x[n-(1,-1,12) [7 Marks] (i) Write down the Discrete-time Fourier Transform (DTFT) of xn [2 marks] (i) pn]...
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