References: at least 2 reliable sources. ii) Calculations Part A: AC CIRCUIT AND IMPEDANCES For this lab refer to fig. 2, and consider the following values for your calculations: R=3 kQ, C = 33 nF, Vin a sinusoidal wave with peak value of 1 volt, and the frequencies given in Table 1. Vin(t) с R ड्र Vo(t) HE Zc Z total (b) (a) Figure 2. RC series circuit: a) with an AC voltage source, b) showing total impedance T a) By hand, calculate Zc (consider f= 100Hz): 348228-772 2c = śwc = 2/² 24.100, 33.107 b) Write a Matlab script to calculate the impedance of the capacitor, Zc, for the different frequencies shown in Table 1. Represent the impedance in rectangular and in polar forms. Express the impedances in k2 and the angles in degrees. Remember to indicate always the units. c) Using Matlab plot |Zc] (vertical axis) vs frequency (horizontal axis). Label the axes indicating units and add a title to the plot. Use the 'stem' command for the plot. Bring your Matlab code and plot to the lab for verification. Jan values

I need help with C. Use matlab

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References: at least 2 reliable sources. ii) Calculations Part A: AC CIRCUIT AND IMPEDANCES For this lab refer to fig. 2, and consider the following values for your calculations: R=3 k0, C = 33 nF, Vin a sinusoidal wave with peak value of 1 volt, and the frequencies given in Table 1. Vin(t)( R + Vo(t) Zc R Z total (a) (b) Figure 2. RC series circuit: a) with an AC voltage source, b) showing total impedance a) By hand, calculate Zc (consider f= 100Hz): 348228-772 2c = 5wc = -J 24.100, 33.107 b) Write a Matlab script to calculate the impedance of the capacitor, Zc, for the different frequencies shown in Table 1. Represent the impedance in rectangular and in polar forms. Express the impedances in k2 and the angles in degrees. Remember to indicate always the units. c) Using Matlab plot |Zc| (vertical axis) vs frequency (horizontal axis). Label the axes indicating units and add a title to the plot. Use the 'stem' command for the plot. Bring your Matlab code and plot to the lab for verification. d) By hand, sketch Zc in the complex plane (Phasors) showing the rectangular and polar values (only the frequencies: f= 1 kHz). Sketch of Ze in the complex plane: 40