Vin(t) Magnitude (dB) 0 -5- -10 -15 -20 -25 Phase (deg) -30 -35 0 -90 10² C₁ 10³ Bode Plot of 1st Order RC Circuit Frequency (rad/s) 10⁰ 105 Above are a 1st Order RC filter and its bode plot. For the above circuit, assume wc = 2,272.73 rad and C₁ = 0.22μF: A) Determine which kind of filter (Lowpass, Highpass, Bandpass, Notch) is the above circuit. B) Find the magnitude of the transfer function at the corner frequency, H(w = wc)], in units of dB. C) Find R₁ in units of kn. D) Using the Bode Plot, find the approximate frequency fi in units of kHz at which |H(f₁)| = -25dB. E) Using the Bode Plot, find the approximate |H(w = 7,000 rad) linear (no units). sec F) Assume at w = 7,000rad, Vin = 10245°V and ZH(w) = -72°. Using these assumptions and Part E, find Vout at w = 7,000 in Avout 40vout form and in units of [V][]. sec

D,E and F

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Vin (t) (2 Magnitude (dB) Phase (deg) R₁ ww -5 -10 -15 -20 -25 -30 -35 Or -45 -90 10² C₁ 10³ Bode Plot of 1st Order RC Circuit Frequency (rad/s) 104 Above are a 1st Order RC filter and its bode plot. For the above circuit, assume wc = 2,272.73 rad and C₁ = 0.22µF: A) Determine which kind of filter (Lowpass, Highpass, Bandpass, Notch) is the above circuit. B) Find the magnitude of the transfer function at the corner frequency, H(w = wc), in units of dB. 105 C) Find R₁ in units of kn. D) Using the Bode Plot, find the approximate frequency fi in units of kHz at which |H(f₁)| = -25dB. E) Using the Bode Plot, find the approximate |H(w = 7,000 rad)|linear (no units). F) Assume at w = 7,000 rad Vin = 10/45°V and ZH(w) = -72°. Using these assumptions and Part E, sec' sec find Vout at w = 7,000 rad in Avout 40vout form and in units of [V][]. sec