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Reinforcement Problem #7 (15 pts.) A) Given For the AC circuit in the frequency domain given:...
Reinforcement Problem # 6 (15 pts.) A) Given For the AC circuit in the frequency domain given: 420 A ( 22 2j2 B) Determine Determine: 1) The Thévenin equivalent circuit with respect to the terminals "a" and "b 2) The impedance Zi for a maximum average power transfer to the load. 3) The value of the maximum average power at the load Zu. Evaluation Criteria Rubric for Reinforcement Problem # 6 Points Activities Answer 1) Answer 2) Answer 3) Show...
A) Given An AC circuit in the frequency domain has an impedance Z represented by the vectors E and I 40v 16.87 60 hertz 20° 8.0A B) Determine Step 1: The value of the impedance Z as a complex number in rectangular form. Step 2: The sketch of Z in terms of an equivalent series circuit representation. Step 3: The value of the reactive element of the series equivalent circuit representation Step 4: The value of the admittance Y -...
Reinforcement Problem # 4 (25 pts.) A) Given For an AC electric power circuit given: 10KW 25040' Vms 0.81ag B) Determine Step 1: The values for the load average power PL, reactive power QL, and complex power SL Step 2: The value of the line current Step 3: The value of the line average power Pi, reactive power α, and complex power Step 4: The value of the power factor of the entire electrical power circuit (seen by source generator)....
Reinforcement Problem # 6 (20 pts.) A) Given The circuit shown is at equilibrium at t = 0 : 2.52 Ict) 00 2F 100 Vct) 2A B) Determine Step 1: The value of Vc(0), Step 2: The value of Vco). Step 3: The time constant , Step 4: The expression of voltage Vc(t) for t2 0 secs, Step 5: The expression of current Ic(t) fort 0 secs. Step 6: Show the MATLAB plot of Vo(t) and Ic(t) with your name....
Reinforcement Problem # 4 (20 pts.) A) Given A state-space system is described: (39)+(7 933) (195) y = (0 - 1)(**) +(1) B) Determine Step 1: The block diagram representation with x1(0) = x2(0) = 0. Step 2: The transfer function Y(S)/F(s) through block diagram reduction. Step 3: The output value of y(t) due to input f(t) = u(t). Evaluation Criteria Rubric for Reinforcement Problem # 4 Gained Activities Step 1. Step 2. Step 3 Describe the techniques and procedures...
Reinforcement Problem # 4 (25 pts.) A) Given An AC electric power circuit is given 1) The values for the load average power Pt, reactive power Q, and complex power Su 2) The value of the line current I 3) The value of the line average power Pt, reactive power Qr, and complex power St. 4) The value of the power factor of the entire electrical power circuit (seen by source generator). 5) The value of the required line voltage...
Reinforcement Problem # 3 (30 pts.) A) Given For the open-loop process with negative feedback R(S) C(s) Oc(s) Op(s) H(s) B) Determine Design the simplest controller (P, PI, PD or PID) capable to meet the required conditions: Gpls)..1 3 rad/s The system has negative feedback and H(s) -1. As part of the process, performjthe following steps 1) Justify selection of Gc(s) among the P, PI, PD or PID controllers. 2) Test the angular condition: Gc(s)Gp(s)H(180 3) Test the magnitude condition:...
Problem # 2 (20 pts) A) Given For the circuit . 20 B) Determine 1) Sketch of the circuit with all currents information. 2) Sketch of the circuit with all voltages information. 3) The value of the voltage Vx. 4) The value of the resistance R. 5) The power at the 4A current source. Use only KVL, KCL and the Ohms Law. Eval uation Criteria Rubric for Reinforcement Problem # 3 Points Activities Step 1 Step 2 Step 3 Step...
Reinforcement Problem #1 (20 pts.) A) Glven For a feedback control system with an open-loop process and negative feedback described RES. Ge(s) - 2, Gp(s) - 7 . H(s) - 1. B) Determine Step 1: The value of the open-loop transfer function Gcs) Go(s)H(s) Step 2: The values of the open-loop static error constants ke ki, and K. Step 3: The transfer functions CSR(S) and E(SYR(S) Step 4: Find aft) and eft due to a unitate test input (r) (1)...
Problem # 1 (10 pts.) A) Given For the circuit: t-0 2.582 Ic(t) 5V (+ 2FTVc) 102 B) Determine The value of current lc(t) and voltage Vc(t) for t 2 0 seconds by using the Laplace transform. Evaluation Criteria Rubric for Problem # 1 Points 8.0 points 1.0 points 1.0 points 10.0 points Activities Find current Ic(t) and voltage Vc(t) for t 2 0 secs. Use a step-by step process. Describe all the formulas, techniques and procedures you used. Square...