Use saturation voltages as +/- 15 Volts where necessary.Apply AC inputs for all cases.

  Use saturation voltages as +/- 15 Volts where necessary.Apply AC inputs for all cases. Q1. Given a box of 10 Kilo-ohm resistors, design a circuit that will produce an output voltage ofV0 = -2V1 – 4V2 a) Design the circuit theoretically. Get it verified.b) Design it on multisim. View output.c) Copy-paste the screenshot of your circuit as well as input/output waveform simulations below. Q2. Design a non-inverting amplifier with gain 8 (do not use less than 1Kilo-ohm resistors) a) Design the circuit theoretically. Get it verified.b) Calculate the range of input voltage for which the opamp operates in the linear region.c) Design it on multisim. (Make sure the resistors you use on multisim are standard value resistors that are available in the lab). View output in linear region and saturation region..d) Copy-paste the screenshot of your circuit as well as input/output waveform simulations below. e) Build the circuit practically. f) View the opamp operating in linear region as well as saturation region. Take screenshots/ pictures of waveforms where necessary, and record your measurements to verify theoretical and practical values.   Final submission:For Q1:  Turn in 1 document that answers all parts of Q1. For Q2. This must be written as a lab report. Follow standard guidelines and format.Theory must consist of o What do you mean by opamps? Why are they useful?o Which OPAMP IC are you using? Draw pin diagram.Show calculations for designing of your circuit. Show calculations for determining the range of linear operation of your circuit. Compare the actual gain of your opamp with the intended gain (of 8), compare the actual ideal range of inputs for linear operation with the actual range you see. Tabulate these values clearly, use multisim output screenshots and NEAT pictures of your oscilloscope waveforms to support your numbers.