For the design problems in Figure (a) and Figure (b), choose any resistor values within the range of 1 kQ to 12 kN and use as fewest components as possible. 1. Referring to Figure (a), design Circuit A such that Vy = 0.8 Vx, where Vx and Vy are the input and output voltages respectively. 2. Referring to Figure (b), design Circuit B such that Vz = 0.25 Vy, where Vy and Vz are the input and output voltages respectively. 3. Cascade the designed Circuit A in series with the designed Circuit B as shown in Figure (c) and then, determine the output voltage, Vz in terms of the input voltage, Vx.

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For the design problems in Figure (a) and Figure (b), choose any resistor values within the range of 1 k2 to 12 k2 and use as fewest components as possible. 1. Referring to Figure (a), design Circuit A such that Vy = 0.8 Vx, where Vx and Vy are the input and output voltages respectively. 2. Referring to Figure (b), design Circuit B such that Vz = 0.25 Vy, where Vy and Vz are the input and output voltages respectively. 3. Cascade the designed Circuit A in series with the designed Circuit B as shown in Figure (c) and then, determine the output voltage, Vz in terms of the input voltage, Vx. 4. Is Vz = 0.25x0.8×VX? Why? Explain your reasoning in detail. 5. If you answer 'No' in Part 4, redesign Circuit A and Circuit B such that Vy = 0.8 Vx, Vz = 0.25 Vy, and Vz = 0.25x0.8×V× using any resistor values within the range of 100 2 to 400 kN. Circuit A Circuit B (b) Circuit A Vy Circuit B (c)