For the circuit below, assume the components have the following values: Vs = 5 Vpp, Cf = 70 nF, Rf = 1400 S2, R₁ = 700 £2 and w = 7000 rads/sec. Answer the following questions for w= 7000 rads/sec. Format all answers to two decimal points. 1) What is the feedback impedance in phasor notation? Zf= O 1.26 at an angle of -38.11 Q. 2) What is the impedance of the input in phasor notation? Z₁ = 0.7 at an angle of 0⁰2 3) What is the magnitude of the gain of this circuit in v/v at the specified frequency? G = 1.8 V/v. 4) What is the magnitude of the output voltage, vout at the specified frequency? vout = 9 Vpp. 5) What is the cutoff frequency? What kind of filter is this? Are we operating in the passband? 3.248 Hz and this is a Band Pass Filter ✓ filter, so fc no, we are not in the passband region because we are operating above the cutoff frequency. ✓ Vs Ri + Cf Rf Vout

Do all parts given below plz

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For the circuit below, assume the components have the following values: Vs=5 Vpp, Cf= 70 nF, Rf = 1400 , R₁ = 700 2 and w = 7000 rads/sec. Answer the following questions for w = 7000 rads/sec. Format all answers to two decimal points. 1) What is the feedback impedance in phasor notation? Zf= 1.26 at an angle of -38.11. 2) What is the impedance of the input in phasor notation? O 9°2 Z₁ = 0.7 at an angle of 3) What is the magnitude of the gain of this circuit in v/v at the specified frequency? G= 1.8 V v/v. 4) What is the magnitude of the output voltage, vout at the specified frequency? vout = 9Vpp. 5) What is the cutoff frequency? What kind of filter is this? Are we operating in the passband? fc = 3.248 Hz and this is a Band Pass Filter ✓ filter, so no, we are not in the passband region because we are operating above the cutoff frequency. ✓ (+1 ww W Ri Vs + Cf mw Rf Vout