S S+2) Find thethe ranse of KIdhot k the syst em is sta 61e (1rs)5 S...
5. Consider the syst em of equations: 2x-y+z2. Set up an augmented matrix and reduce to an upper triangular matrix. 5 marks a. For which value(s) of "p" (if any) does the system not have a solution? b. For which value(s) of "p" (if any) does the system have one unique solution? For which value(s) of "p" (if any) does the system have an infinite number of solutions? c. Page 5 SPRING 2019 ASSIGNMENT FILE MATH 1057 EL 12 5....
em Q5. Consider the Nyquist plot of the frequency response of the open-loop syst 10000 Go(s) )(s +10) (s+50) which is shown in Figure Q5 below Real Axil 0.5 Figure Q5 (a) Write down the expression of the frequency response for this system, clearly showing the overall gain. why maximum value of an additional gain K for which the closed loop would still be stable? the corresponding point on the plot occurs at 12rad/s, what is the maximum delay xphian...
Problem 5: A spe 130 kg, and its em is suspended by the cables attached at Dand E. The mass of the speaker system is weight acts at G.Determine the tensions in the cables and the reaction forces at A and C. aker syst 0.5 m 0.5 m 0.5 m 0.5 m 1 m
G(s).H(s)= k.(s^2-4^s+8)/(s3+15s+50s) used Root locus by hand and find K for system to be stable. used Routh-Hurwitz stability by hand and find K for system to be stable.
2. [25 points] The following figure shows the phase diagram of Cu-Ag alloy syst em. A mixture of Ag and Cu with a eutectic composition (or concentration) is heated to a high temperature and keep for enough time to prepare the material into a uniform liquid state. The material is then cooled down to 800°C. Cu-Ag System 1200p Liquid 1000 800 A B. 600 400 200 100 80 60 40 20 wt% Ag (o) What is the Ag composition in...
eckc sta bility and de terMia 2. Find the extenal reac hens r the loxdinn beleu 3 Daw he shear and neomest de 4 Remove el) 5raMS (for the loadiny bela e move Ca.. the losd, and deterihe the alvence line foc: OMCA we 5. Ca^sidering the loading used i^ #Zondst 3, use virtual aock alkulted dspcement o ??? 6. Check?2, #3 and 5 w/R18A Tos k/f 3
Q.10- For the system shown in Figure 5 with K (s + 3)(s +5) Gs)s-2)s-4) Find the range of gain, K, which will cause the system to be stable. Cs) Q.11. Draw the Root Locus of the following systems. Find the points of intersection with the real and imaginary axis. 6(s)H(s)- s(s +2) K(s+5) of- Draw the Bode diagram of the following tmamsfer finction. His)- -100 s +12s +21s +10 213- Obtain the phase and gain margins of the system...
Problem #5 For the following system, K(s 3) (s2 +2)(s- 2)(s+5) R(s)+ C(s) (a) Sketch the root locus. (b) Find the range of K such that the system has only two right-half plane closed-loop poles
A system with a unity feedback has plant transfer function K(+1) G(s) = (s-2+j2)(s-2-j2) 5, find the followings: a) The range for K for the system to be stable. b) The location of intersection with the imaginary axis.
2. Consider a unity feedback system, where (5+5 marks) P(s) = 5+1 K(s) = 548 Find values of a and B that assure (a) Zero steady-state error to a step command. (b) Steady-state error to a ramp command less than 0.01.