i. ii. iii. For the circuit of Figure 1.1: v/(1) WHE 50ΚΩ 1 μF WWE v (1) 200 k£2 초' 1 μF Figure 1.1 a. Derive the transf

[answerhappygod]

1 (32.65 KiB) Viewed 49 times

i. ii. iii. For the circuit of Figure 1.1: v/(1) WHE 50ΚΩ 1 μF WWE v (1) 200 k£2 초' 1 μF Figure 1.1 a. Derive the transfer function relating the input voltage v; and output voltage - b. Determine function vo(t) when a 4V step input is applied. c. Using the initial and final value theorem, find the initial and final value of the output voltage when the input in part b above is applied? For the following function, determine if pole-zero cancellation can be approximated. (s + 3) (s +2.5) (s+4)² F(s) = Consider the following differential equation: %(1) d²x dt² dx +5+8x = f(x) where f(x) is the input and a function of the output x. If f(x) = e-*, linearize the differential equation for x near 0.