Consider a typical electrical circuit system shown in Figure 2. The circuit consisting of two resisters value R; and R: (ohm), a capacitance of value C (farad) and an inductance of value L (henry). The input is the supplied voltage V, and the output voltage is Vo. Viz R1 R2 Vo Figure 2 (). Apply Kirchhoff's voltage law or other principles to derive the input-output dynamic model equation. (1). Apply Laplace Transform to determine the model transfer function for the electrical system. (H). Estimate the transfer function for the following R; = (ohm) and R: = (ohm), L = (henry), and C = (farad) values. Task 4 R. (ohm) C (farad) (ohm) (henry) Note: Refer the Table for R1, R:, C and L values. 27 13 24

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Consider a typical electrical circuit system shown in Figure 2. The circuit consisting of two resisters value R, and R2 (ohm), a capacitance of value C (farad) and an inductance of value L (henry). The input is the supplied voltage V, and the output voltage is Vo- viz R1 Vi R2 Vo Figure 2 (1). Apply Kirchhoffs voltage law or other principles to derive the input-output dynamic model equation. (i). Apply Laplace Transform to determine the model transfer function for the electrical system. (i). Estimate the transfer function for the following R; = (ohm) and R2 = (ohm), L = (henry), and C = (farad) values. Task 4 R, (ohm) R: (ohm) C (farad) (henry) Note: Refer the Table for R1, R2, C and L values. 27 13 24 4 lellll