(b) Calculate your for Vin = 10 V. (c) Calculate your for Vin=-10 V. (d) Using your insights from (a) - (c), draw a graph that shows Vout as a function of vin. Put vin on the horizontal axis as it is the independent variable, with your on the vertical axis as it is the dependent variable. (e) Using your insights from (d) and your knowledge of resistive circuits, design a circuit that has the relationship between Vin and Vout shown in the graph below. -10V -5V Vout 2.5V 5V 10V --2.5V Vin

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(a) Calculate Vout for vin=0 V. (b) Calculate Vout for Vin = 10 V. (c) Calculate Vout for Vin=-10 V. (d) Using your insights from (a) - (c), draw a graph that shows vout as a function of vin. Put vin on the horizontal axis as it is the independent variable, with Vout on the vertical axis as it is the dependent variable. (e) Using your insights from (d) and your knowledge of resistive circuits, design a circuit that has the relationship between Vin and Vout shown in the graph below. -10V -5V Vout 2.5V 5V 10V -2.5V Vin

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The circuit below has a variable voltage vin as its input. We are interested in Vout as a function of Vin. In other words, if we vary the value of the voltage source vin, what will be the effect on the voltage Vout? The steps below will help you to investigate this question, and your answers will form the basis for a new design. Assume that the diode can be sufficiently modelled as simple diode with forward voltage of 0.7 V (you do not need Shockley's equation). Vin 100Ω M Vf = 0.7 V 2 V V out