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(1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer...
Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5...
Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5) (s+4) (s2+6s)(s2 +16) s(s+4)(s+7) (s+2) (s+3) (s2+9) (s2+4s2+13s) (s-1)(s2+10s+34) C. (22
Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5) (s+4) (s2+6s)(s2 +16)...
Show all your work II of the following transfer functions. Also function represents a stable system....
Show all your work II of the following transfer functions. Also function represents a stable system. (5+2)(5-5) a. (s+4)(s2 +65)(s2+25) s(s+4)(s+7) b. (5-1)(s+7)(s+9) (S-2)(+3)(s2+16) (83+652-125)(s+1)(s2+4s+4) (2) Draw the frequency response for the following transfer functions: 10 (5+105)(s+107) a. (s+104)(s+108)
For the following systems, find the transfer function using MATLAB. Also, determine the poles and zeros...
For the following systems, find the transfer function using MATLAB. Also, determine the poles and zeros of each transfer. You should be able to use some combination of the following MATLAB functions: 'ss2tf( )', 'ss( )', 'tf( )', 'pole( )', "zero( )', and 'roots() 100 ).y) = [0_1)|) 2 a. |x2(t)] -10 [x1 (t lx20 21 b. + 01 x1 (t) 0 x2(t) 1 u(t), y(t): ol]x3(t)] [(t)] x2(t) 3(t) [x1 (t)] [o 0 1x2(t) [x3(t)] -4 -2 0 2...
210y= 3r + 6r (1) What is the characteristic equation of this system? (2) What are the system's poles and zeros...
210y= 3r + 6r (1) What is the characteristic equation of this system? (2) What are the system's poles and zeros (3) Plot the poles and the zeros on the s-plane (4) Is this system stable or unstable? Why or why not? (5) Estimate the system's response (not knowing the type of the input)
210y= 3r + 6r (1) What is the characteristic equation of this system? (2) What are the system's poles and zeros (3) Plot the poles and...
Poles and Zeros For the transfer function given: 0.85 8-44.64 G(s) = 긁+0.83 12.00 Part A-Poles Find the system pole 8 Submit Part B-Poles Find the system pole s2 Submit Part C-Zeros Find the system...
Poles and Zeros For the transfer function given: 0.85 8-44.64 G(s) = 긁+0.83 12.00 Part A-Poles Find the system pole 8 Submit Part B-Poles Find the system pole s2 Submit Part C-Zeros Find the system zero Submit Part D-Type of Response Based on the locations af the poles and zeros, what will be the response to a unit step inpue? O Harmonic Oscillations (Marginally stable) Oscillatory motion with exponential decay tending to zero (stable O Critically damped exponential decay (stable)...
For the system transfer function given by: s +10 $2 x (82100.+10) 1. Identify each term in the tr...
For the system transfer function given by: s +10 $2 x (82100.+10) 1. Identify each term in the transfer function (constant, poles, zeros) (a) For any constant terms, what is the dB magnitude? What is the phase angle? (b) For any real poles not at the origin, what is the break frequency? (c) For any real zeros not at the origin, what is the break frequency? 2. Give the value of the DB magnitude and phase angle at w =...
1) Write a Matlab program for the following block diagram: a) to derive its closed-loop transfer function. b) to find and plot the poles-zeros of closed-loop transfer function. s+2s+3 R(s) → Y(s)...
1) Write a Matlab program for the following block diagram: a) to derive its closed-loop transfer function. b) to find and plot the poles-zeros of closed-loop transfer function. s+2s+3 R(s) → Y(s) 2s+3 2 +2s +5 15 Automatic Control Systen
1) Write a Matlab program for the following block diagram: a) to derive its closed-loop transfer function. b) to find and plot the poles-zeros of closed-loop transfer function. s+2s+3 R(s) → Y(s) 2s+3 2 +2s +5 15 Automatic Control Systen
(1 point) Consider the following transfer function: H(s)-081025L 84-143s3+6810s2-117896s+436480 Part 1: Number of Zeros and Poles...
(1 point) Consider the following transfer function: H(s)-081025L 84-143s3+6810s2-117896s+436480 Part 1: Number of Zeros and Poles How many zeros are present in the transfer function? 2 How many poles are present in the transfer function?4 Part 2: Critical Frequencies Find the poles and zeros of the transfer function. Enter them in ascending order from left to right: Zeros Poles
4. Determine the transfer function, poles and zeros, and stability of the system represented by the...
4. Determine the transfer function, poles and zeros, and stability of the system represented by the following difference equation: y[n] = -1.5y[n-1] + y[n-2] + x[n] Answers:H[z]= 1/(1+(1.5z^-1) - (z^-2)); poles at z = -2, 0, 5; zeros at z=0; unstable
please write neatly Find Poles and zeros, sketch the magnitude (dB) and phase angle plot for...
please write neatly
Find Poles and zeros, sketch the magnitude (dB) and phase angle plot for the following transfer function with proper scales 400m s(s + 2n) A(S)s (s + 0.2n)2(s + 20m) (s + 200r) (convert to frequency, Hz, from radian frequency) Poles: Zeros: Draw the bode plots in scale, and mark all slopes and dB value for slope 0 (convert to frequency, Hz, from radian frequency) Freq(Hz) Freq(Hz) 80
Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5) (s+4) (s2+6s)(s2 +16) s(s+4)(s+7) (s+2) (s+3) (s2+9) (s2+4s2+13s) (s-1)(s2+10s+34) C. (22
Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5) (s+4) (s2+6s)(s2 +16)...
Show all your work II of the following transfer functions. Also function represents a stable system. (5+2)(5-5) a. (s+4)(s2 +65)(s2+25) s(s+4)(s+7) b. (5-1)(s+7)(s+9) (S-2)(+3)(s2+16) (83+652-125)(s+1)(s2+4s+4) (2) Draw the frequency response for the following transfer functions: 10 (5+105)(s+107) a. (s+104)(s+108)
For the following systems, find the transfer function using MATLAB. Also, determine the poles and zeros of each transfer. You should be able to use some combination of the following MATLAB functions: 'ss2tf( )', 'ss( )', 'tf( )', 'pole( )', "zero( )', and 'roots() 100 ).y) = [0_1)|) 2 a. |x2(t)] -10 [x1 (t lx20 21 b. + 01 x1 (t) 0 x2(t) 1 u(t), y(t): ol]x3(t)] [(t)] x2(t) 3(t) [x1 (t)] [o 0 1x2(t) [x3(t)] -4 -2 0 2...
210y= 3r + 6r (1) What is the characteristic equation of this system? (2) What are the system's poles and zeros (3) Plot the poles and the zeros on the s-plane (4) Is this system stable or unstable? Why or why not? (5) Estimate the system's response (not knowing the type of the input)
210y= 3r + 6r (1) What is the characteristic equation of this system? (2) What are the system's poles and zeros (3) Plot the poles and...
Poles and Zeros For the transfer function given: 0.85 8-44.64 G(s) = 긁+0.83 12.00 Part A-Poles Find the system pole 8 Submit Part B-Poles Find the system pole s2 Submit Part C-Zeros Find the system zero Submit Part D-Type of Response Based on the locations af the poles and zeros, what will be the response to a unit step inpue? O Harmonic Oscillations (Marginally stable) Oscillatory motion with exponential decay tending to zero (stable O Critically damped exponential decay (stable)...
For the system transfer function given by: s +10 $2 x (82100.+10) 1. Identify each term in the transfer function (constant, poles, zeros) (a) For any constant terms, what is the dB magnitude? What is the phase angle? (b) For any real poles not at the origin, what is the break frequency? (c) For any real zeros not at the origin, what is the break frequency? 2. Give the value of the DB magnitude and phase angle at w =...
1) Write a Matlab program for the following block diagram: a) to derive its closed-loop transfer function. b) to find and plot the poles-zeros of closed-loop transfer function. s+2s+3 R(s) → Y(s) 2s+3 2 +2s +5 15 Automatic Control Systen
1) Write a Matlab program for the following block diagram: a) to derive its closed-loop transfer function. b) to find and plot the poles-zeros of closed-loop transfer function. s+2s+3 R(s) → Y(s) 2s+3 2 +2s +5 15 Automatic Control Systen
(1 point) Consider the following transfer function: H(s)-081025L 84-143s3+6810s2-117896s+436480 Part 1: Number of Zeros and Poles How many zeros are present in the transfer function? 2 How many poles are present in the transfer function?4 Part 2: Critical Frequencies Find the poles and zeros of the transfer function. Enter them in ascending order from left to right: Zeros Poles
please write neatly
Find Poles and zeros, sketch the magnitude (dB) and phase angle plot for the following transfer function with proper scales 400m s(s + 2n) A(S)s (s + 0.2n)2(s + 20m) (s + 200r) (convert to frequency, Hz, from radian frequency) Poles: Zeros: Draw the bode plots in scale, and mark all slopes and dB value for slope 0 (convert to frequency, Hz, from radian frequency) Freq(Hz) Freq(Hz) 80
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