PLEASE SHOW ALL STEPS AND IN BETWEEN STEPS
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PLEASE SHOW ALL STEPS AND IN BETWEEN STEPS THANK YOU Problem 3. In Fig. 1, G(s)-...
PLEASE SHOW ALL IN BETWEEN STEPS Figure 1: Feedback system. Problem 5. In Fig. I. D(s)=_ and G(s)-- 1 +7 Find the values of K and a that result in a rise time of 0.05 sec and a settling time of 0.9 sec.
Please show all work and answer all the questions so I can learn how to do it on my own. Thank you in advance. (GM,PM,wcg,wepl-margin(sys) computes the gain margin GM, the phase margin PM, and the associated frequencies weg and wep. They can also be read from the Bode plot. G(s) R(s) EX G(s)- (s +10(s+1)2 Questions Draw the Bode plot when K-1, find the gain margin, and determine the closed-loop stability. (b) Convert the gain margin to a normal...
Please show all steps! Much appreciated, thank you! |6. as pout) The frequeney response for Fourier transfar of isimpulse resporse h system of a systkem all-pass filter thal pases all called Such ar in gain but changes the phase reletinship between various frequecies |) Pleuse prove H Gjw = A (constant) and find the actual value of A. s the transfer funtin Hs) of the causa! system" Fiad al the poles and pole ) what zeros and make plot to...
Please show steps. Thank you. Consider the reaction: NH3 (g) + HCl (g) NHỊd(s). Given the following table of thermodynamic data at 298 K: Substance Hitmol) | SPIK.mol) HGS The siue ot k for the reaction at 25 C us
Please show all steps in solving the problem. Thank you! 8.) Euler's Method Given the following equation: Use Euler's method to estimate the value of y(t) for t = 0.5, 1, 1.5 seconds (At = 0.5). The initial condition is y(0) = 6. Fill in the table below with your results Room for comments 0 0.5
please show all steps , thank you 6. Consider the initial value problem y" + 2y' + 2y = (t – 7); y(0) = 0, y'(0) = 1. a. Find the solution to the initial value problem. (10 points) b. Sketch a plot of the solution for t E (0,37]. (5 points) c. Describe the behavior of the solution. How is this system damped? (5 points)
Figure 1 Problem 3 For the system shown in the above figure, where G(s) a) Draw a Bode diagram of the open-loop transfer function G(s) when K 10. b) On your plot, indicate the crossover frequencies, PM, and GM. Is the closed-loop system stable with K-10? c) Determine the value of K such that the phase margin is 30°. What are the gain margin and the crossover frequencies with this K? Note: You can finish problems 2-3 with the help...
Please explain the steps taken in detail for both part a) and b). Thank you very much. 4. Consider the feedback control system shown in Figure 6, where the transfer function G(s) is given by 8000 (S+10 (s+30) G(s)- R(s) C(s) G(s) Y(s) Figure (6 (a) Design a lead controller C(s) K to satisfy the following specifications: (i) Gain crossover frequency o-10V3 (ii) Phase margin ( 2 60° Specify the values of K, T and a . Determine the corresponding...
please show all steps to solve, thanks please solve the problem, thank you Problem 7 (21 points) For the planes and directions in the cubic unit cells shown below: (a) (9 points, 3 each) Determine the indices for the planes D, E and . (12 points, 3 each) Determine the indices for the directions A, B, C and D. D 2 1 - 1
Hello, I need help with Problem 3. Please show all the steps and the solutions of the problem. Thank you very much. 3. Compute the hyperbolic area of the hyperbolic triangle shown below: 3. Compute the hyperbolic area of the hyperbolic triangle shown below: