1.2 [30 Marks] Sketch an approximation of the Bode Plot for the following process. Label any...
Sketch the straight-line approximation Bode plot diagrams (magnitude and phase) 110s for H[s] You might want to examine Examples E.1 and E.2 in (s+10)(s+100)´ the textbook. Based on your straight-line Bode plot sketch, answer the following questions. The questions are: a. Identify the transfer function written in time constant form. b. The phase of H[s] at low frequencies is? c. The magnitude plot has what slope at low frequencies? d. The magnitude plot has what slope at high frequencies? e....
Problem 3. Sketch the Bode plot (magnitude only) for the following transfer function. Label all slopes (dB/dec): (s 1000)(s 10,000) (s/100+1) (s/1000+1)(s/10,000+1) 7(s) T(s)- 0 dB 20 dB 0 40 dB 3 60 dB -80 dB -100 dB 10 10 103 104 105 106
Chapter 12, Problem 12.21 (Multistep) Part 1 Correct. Sketch the magnitude characteristic of the Bode plot for the transfer function 30(0.060 * jo + 1) jojo + 1)(0.0024 * ja + 1) H0) = Shown here is the radian frequency axis for w > 0. The labeled frequencies represent the break frequencies in the transfer function H(o) (not necessarily drawn to scale). -+ W + w W3 W (rad/sec) What are the numerical values of the break frequencies w1, wz,...
How to Sketch a bode plot for the transfer function given below indicating approximate amplitudes, slopes (in dB/decade) and frequency values (in Hertz). (s? +4) (52 +220 + 4000)
Chapter 12, Problem 12.16 Describe the sketch of the magnitude characteristic of the Bode plot for the transfer function The magnitude asymptote plot has a slope of dB/decade from ω-0 to ω! rad/s, a slope of dB/decade from ω1 to ω2- 5 rad/s, a slope of dB/decade from ω2 to ω3-65 rad/s, and a slope of dB/decade from w3 to oo. The value of the magnitude asymptote at 0.1 rad/s is dB. Click if you would like to Show Work...
plot the bode plot for the following I. (5 pts.) Plot the Bode plot for the following function on the graph provided. Note: you need to label the H(w axes. H)-10 +101s +100 s +10 o2π 3T/4 t/2 π/4 10K 1K 100 10 0.1 0.01 I. (5 pts.) Plot the Bode plot for the following function on the graph provided. Note: you need to label the H(w axes. H)-10 +101s +100 s +10 o2π 3T/4 t/2 π/4 10K 1K 100...
Q5) Sketch the Bode Plot (magnitude response) of the following systems. NOTE: Try to sketch yourself in the semi-log graphs below. To answer in Blackboard, select one of the possible plots in the next page (a)H(+1000 s+2) (s+200) +100) (+10) 0.1 02 10 20 30 100 200 10 rad/s 0.1 0.2 10 20 30 100 200 10 rad/s
Bode Plots Sketch the Bode plot magnitude and phase for each of the three open-loop transfer functions listed below. Verify your results using the bode m function in MATLAB.(a) \(G(s)=\frac{100}{s(0.1 s+1)(0.01 s+1)}\)(b) \(G(s)=\frac{1}{(s+1)^{2}\left(s^{2}+s+9\right)}\)(c) \(G(s)=\frac{16000 s}{(s+1)(s+100)\left(s^{2}+5 s+1600\right)}\)
For the following closed-loop transfer functions, sketch the bode plots (magnitude and phase), iden- tifying the zero gain, the slopes (in Decibels) and the high-frequency cutt-off rate. Then verify with Matlab C()101 100) s 0.1) (s 10) 100 s(s +10)2 G(s) = (56) G(s) = s+10(s+100) For the following closed-loop transfer functions, sketch the bode plots (magnitude and phase), iden- tifying the zero gain, the slopes (in Decibels) and the high-frequency cutt-off rate. Then verify with Matlab C()101 100) s...
Sketch the magnitude characteristic of the Bode plot for the transfer function (3 marks) G(0) = -02.104 (jo+1)2.jw+10)-(+100)