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Derive the mathematical model of the electrical circuit shown below. Identify dynamic variables.
3.21 Derive a mathematical model for the circuit of Figure P3.21. Use is, iz, and is as the dependent variables. 2 L n 13 V2 R R2 FIG. P3.21
(5 marks) For the followving electrical system shown in Figure 3. a) Derive the mathematical model of the system b) Draw Block diagram of the system, then, c) Obtain the transfer function of Eo(s)/E (s) Figure 3
(5 marks) For the followving electrical system shown in Figure 3. a) Derive the mathematical model of the system b) Draw Block diagram of the system, then, c) Obtain the transfer function of Eo(s)/E (s) Figure 3
Problem 1: (Time Response) Derive the transfer function (s) of the electrical circuit shown below. Then obtain the response e (0) when the input (1) is a unit step of magnitude E, (i.e., e(t) = E, (t)). Assume that the initial charge in the capacitor is zero. e/o)
2. (a) Derive the mathematical model for the system shown; no need to simplify. (b) Draw the electrical circuit analogous to this system. 2 2. Circuit with Voltage Source Inductance (L) Capacitance (1/C) Resistance (R) Charge (4) Voltage (v) Current (i) Mechanical System Mass (m) Stiffness (k) Viscous damper (c) Displacement (x) Force () Velocity (รค)
2) Deriv Derive the mathematical expression for Vout/V for the circuit below. Rs To
PES Consider a series RC circuit as in the figure below for which R - 5 MOhms,C= 8 PF, and p-50V. a R s (b) Find the maximum charge on the capacitor after the switch is thrown closed. 400 D009-1.jpg 6.7 Dc009-2.jpg 40mc009-3.jpg 3.3 Inc0094.jpg None of the above
Derive the runtime of dynamic Fibonacci algorithm shown below #### def fib( iN ): iP = iQ = 1 for i in range( iN - 1 ): iP, iQ = iP + iQ, iP return iP
Obtain a mathematical model (The two equations that constitute of Kirchhoff's voltage law) of the circuit shown below: Ri e(r) Problem 1
Obtain a mathematical model (The two equations that constitute of Kirchhoff's voltage law) of the circuit shown below:
Ri e(r) Problem 1
Question 10 Consider a series RC circuit as in the figure below for which R - 5 MOhms C - BMF, and e- 50 V. 3 pts w R 8 (c) Find the current in the resistor 10 s after the switch is closed. 0.78 Dc010-1.jpg 7.79 Dc010-2.jpg 0.71 Dc010-3.jpg 269010-4 None of the above
IMG_20210422_122013~2.jpgIMG_20210422_121951~2.jpg