I don't understand the answer. Please write it clearly and step by step
We need at least 10 more requests to produce the answer.
0 / 10 have requested this problem solution
The more requests, the faster the answer.
I don't understand the answer. Please write it clearly and step by step 3. Sketch the...
Please provide step by step details for the answers from parts
(a) and (b). Thumps up for a well explain and sketch answer.
50000 5. (12 pts) Consider the transfer function T (s) = 7 (1+1000) a. Use hand calculations (show all your work) to obtain asymptotic equations for all regions of the Bode magnitude response of the system. Sketch (by hand) the Bode magnitude plot indicating the slope of the various segments. b. Analyze the system phase response and...
10s(s+20) 3 H(s) = 7 (s +1)(s? +60s + 400) S = 10 (i) Sketch the magnitude Bode plot on the given semilogs graph. (10 Marks / Markah) (ii) Sketch the phase Bode plot on the given semilog graph. (10 Marks / Markah)
please answer thoroughly ahow each step.. please provide detail
bode plots.. please answer complelty
Consider the following transfer function: G(8) = Tstl 1. Write the polar form of hand 1+jWT 2. Write the magnitude and phase of G(jw). 3. Write the magnitude in dB of G(jw). 4. What is the approximate magnitude of Gw) in dBs for the low and high frequencies w, respectively? 5. What is the approximate phase of G(w) for the low and high frequencies w, respec-...
Can anyone please help me to solve the problem. Appreciate your
help. Thank you.
Y(s) Fig. 3 Consider a feedback control system shown in Fig. 3 where: 20000 G(s) - (s2+6s 8) (s 20) a) Sketch the asymptotic Bode plot. b) Plot the Bode plot by use of MATLAB
Y(s) Fig. 3 Consider a feedback control system shown in Fig. 3 where: 20000 G(s) - (s2+6s 8) (s 20) a) Sketch the asymptotic Bode plot. b) Plot the Bode plot...
please solve the (a) (b) (d)
6.19 Sketch the Nyquist plot based on the Bode plots for each of the following systems, and then compare your result with that obtained by using the Matlab command nyquist: Don't be concerned with the details of exactly where the curve goes, but do make sure it crosses the real axis at the right spot, has the correct number of -I encirclements, and goes off to infinity in the correct direction. GH (s) =...
please answer i and ii step by step
(c) An active filter circuit with an op-amp that is ideal in all respects is shown in Figure 1.3. It has the magnitude transfer function Vout R.0 Figure 1.3: Active filter circuit with an ideal op-amp Gi) By choosing suitable frequency points for the component values of R- 10 kQ and C -0.1 HF, draw the magnitude Bode plot for the filter circuit of Figure 1.3. Use the graph paper of Page...
Please write clearly and show all steps or I will not give a thumbs
up for your answer! If I can’t read and understand the answer it
won’t help (: thanks!
uicuiate the electric force that acts on each ion. THE ELECTRIC FIELD .A point charge of 4.0 puC is a: the origin. What are the 37 magnitude and direction of the electric field on the x axis at (a) = 6.0 m and (b) x =-10 m? (c) Sketch...
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
Please Show / Explain each step. WILL RATE!!! thanks
*6. a) Experimentally obtained data for the frequency response of an amplifier are plotted as small stars (*) in the figure below. Using piecewise straight-line asymptotic approximation, estimate the transfer function of this amplifier. Bode Gain (or log-magnitude) plot of unknown system Gain in dB 00 10' 10% 108 Frequency (rad/s) b) Use Matlab’s “bode” command to plot the Bode log magnitude of your estimated transfer function to see how closely...
Please write clearly and with all the steps. Please
don't forget the sketch. Thanks
Calculate the resultant force of the for shown. Assume F1 = 198 lb and F2 78 lb. Also make a sketch of the resultant force showing it is direction. Fi 30 45