(Solved): Please include Matlab Code and Simulink Schematic \[ G(s)=\frac{E_{O}(s)}{E_{\mathrm{in}}(s)}=\ ...

Please include Matlab Code and Simulink Schematic

\[ G(s)=\frac{E_{O}(s)}{E_{\mathrm{in}}(s)}=\frac{L C s^{2}+1}{L C s^{2}+R C s+1} \] The electrical system parameters are \( R=2 \Omega, C=0.1 \mathrm{~F} \), and \( L=0.4 \mathrm{H} \). The voltage input is a sinusoidal function, \( e_{\text {in }}(\mathrm{t})=2 \sin 5 \mathrm{t} \mathrm{V} \), and the initial output of the notch-filter circuit is zero. [2 mark] a) Use MATLAB's command ilaplace to compute and plot the output voltage of the filter, e \( e_{0}(\mathrm{t}) \), to the specified sinusoidal input. (Please include your MATLAB code and its results) b) Use Simulink to obtain the output voltage response \( e_{O}(\mathrm{t}) \) to the specified sinusoidal input and then plot the solution. (Please include the schematic of the Simulink model and the output plot) Output voltage \( e_{O} \)