For the following transfer function \(T_{\mathrm{V}}(s)=V\) \({ }_{2}(s) / V_{1}(s)\)

\[
T_{\mathrm{V}}(s)=K \frac{s}{s^{2}+B s+\omega_{0}^{2}}
\]

(a) Select values of \(B\) and co \({ }_{0}\) so that the bandwidth and the center frequency are 50 and \(10 \mathrm{krad} / \mathrm{s}\), respectively. What is the \(Q\) of your circuit?

(b) Select \(K\) so that the passband gain is o dB.

(c) Use MATLAB to plot the Bode magnitude and phase of the transfer function.

(d) Using an appropriate \(R L C\) circuit, design a circuit that produces the transfer function found in part (c).

(e) Simulate your circuit in Multisim and compare your design's results with those found with MATLAB.