[Solved]Circuits Shown R1 10k0 S1 Key C1 0nf R2 10k 50 Circuit Si Opened Calculate Time Constant Q37252233
may you please solve the following especially the calculationparts.
For the circuits shown R1 10k0 S1 Key-A C1 0nF R2 10k 50% For circuit (a), with SI opened: i. Calculate the time constant of the circuit, t ii. Using a square wave with a period 20ri and a 1-Vp, plot the waveforms for channels (1), (2), and the difference between them (1-2), and ii. Change the input signal to a sinusoidal wave and repeat step (ii) 2) For circuit (a), with S1 closed: i. ii. iii. Calculate the time constant of the circuit, t2 when R2-100%. Adjust the period of the function generator to a period of 20r. Change R2 from 20% to 90%, in steps of 10% and draw a graph between R2 (on the x- axis), and vc () (on the y-axis). You can obtain vc (o) by measuring Vpk-pk on the oscilloscope. Plot using MATLAB. ) For circuit (b): i. Calculate the time constant of the circuit, t, when R 50%, 11. Using a square wave (period 20 rs and a 1-VP), change R from 20% to 90%, in steps of 10% and draw a graph between R (on the x-axis), and L (o) (on the y-axis). You can obtain i () by measuring Vpk on the oscilloscope and dividing it by R. Plot using MATLAB Show transcribed image text For the circuits shown R1 10k0 S1 Key-A C1 0nF R2 10k 50% For circuit (a), with SI opened: i. Calculate the time constant of the circuit, t ii. Using a square wave with a period 20ri and a 1-Vp, plot the waveforms for channels (1), (2), and the difference between them (1-2), and ii. Change the input signal to a sinusoidal wave and repeat step (ii) 2) For circuit (a), with S1 closed: i. ii. iii. Calculate the time constant of the circuit, t2 when R2-100%. Adjust the period of the function generator to a period of 20r. Change R2 from 20% to 90%, in steps of 10% and draw a graph between R2 (on the x- axis), and vc () (on the y-axis). You can obtain vc (o) by measuring Vpk-pk on the oscilloscope. Plot using MATLAB. ) For circuit (b): i. Calculate the time constant of the circuit, t, when R 50%, 11. Using a square wave (period 20 rs and a 1-VP), change R from 20% to 90%, in steps of 10% and draw a graph between R (on the x-axis), and L (o) (on the y-axis). You can obtain i () by measuring Vpk on the oscilloscope and dividing it by R. Plot using MATLAB
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Answer to For the circuits shown R1 10k0 S1 Key-A C1 0nF R2 10k 50% For circuit (a), with SI opened: i. Calculate the time constan… . . .
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