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Find the transfer function Vo(s)/V(s) for the circuit shown in the figure. 1. IH OO00 H w 0000 TH IF IF
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4. Problem 4 (10 points). For the circuit shown in Fig. 2 what is the initial value and the steady state value of the voltage across the output? Assume the switch closes at t = 0·Explain your answer. R3 R1 R4 R2 Vout Vs 0 V E 1 mH GND
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I6: (15 points) Given the Op amp Circuit below ECET30S TEST 2 Page 9 of 10 Find the voltage vo and the current i° when the Op Amp assumed ideat--oV Noda A 냐 ao Node B The Op-Amp is no longer ideal with the following characteristics. Again = 250000, Ri = 500k, Rout-5k. 1. Dras...
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Problem 3: (15 points) The feedback control system shown has the closed loop transfer function R(S) + Y(s) Gc(s) G(s) 169 Ge(s)G(s) 1 + Gc(s)G(s) (s+85)(s2 + s + 1.69) If the system starts at rest and is subjected to a unit step input, determine estimates for the following aspects of the system response: a) Percent overshoot b) Final value of y c)...
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closed circuit would look like and then solve the problem. Please
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Please solve but first please draw this as a closed circuit so I can understand what it looks like. Thank you very much! I will thumbs up if I understand well and you explain good! Please make sure to draw in closed circuit form 4.25 In the circuit...
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5) In the following circuit find an equation for v(t) the voltage across the capacitor for t>O. You may assume the circuit is in the steady-state just before the switch opens at t-0. 6 N 50 -Mu IH 3 10 ml Add equation 6) For the following circuit find an equation for v(t) fort > 0. You can assume that the circuit had reached the steady-state condition before the...
The circuit shown in Figure 2 is called a lead-lag filter. a) Find the transfer function Vols)/Vis). Assume an ideal operational amplifier. b) Determine the partial fraction expansion for Vols)/V(s) c) Determine Volt) and plot the results. Comment on the response of the filter 3. C1 R2 C2 iSin looot RI M(s) Figure 2: Lead-Lag Filter
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Problem 3 A second order system is modeled by the transfer function shown below. r(s) = s2+3s+16 Find the damping ratio ζ, the natural frequency wn, the settling time T,, the peak time Tp, the rise time T, and the percent overshoot %OS.
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7.) The input to the circuit shown in Figure 5 is the voltage v(t)=5 cos(3t) v ! Write and solve node equations to determine the steady state output voltage v.o. EX YF N Volo MA
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Find the equation of the tangent line to the graph of f(x) at the given point. f(x) = In(3x-2) at (1,0) Find the derivative of the function, y = - 3xIn(x+1) Show all of your work on paper dy I dx Find the largest open intervals on which the function is 1. Increasing 2. Decreasing 3. Concave upward 4. Concave downward 3. find the location...