= Find vo in the circuit below, assuming that Rf= 10 k2 given that v= 10 mV, R1 =5 k2, R2 = 2, R3 = 2 k2 and R4= 6 k2. %3D

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**Question #7:** **Problem Statement:** Find \( v_o \) in the circuit below, assuming that \( R_f = 10 \text{ k}\Omega \) given that \( v = 10 \text{ mV} \), \( R_1 = 5 \text{ k}\Omega \), \( R_2 = 15 \text{ k}\Omega \), \( R_3 = 2 \text{ k}\Omega \) and \( R_4 = 6 \text{ k}\Omega \). **Circuit Diagram Explanation:** The circuit consists of a voltage source \( v \) of 10 mV connected to a resistor \( R_1 \) (5 \( \text{k}\Omega \)). This is connected to the inverting input of an operational amplifier (op-amp). The non-inverting input of the op-amp is grounded. The feedback network of the op-amp consists of resistors \( R_f \) (10 \( \text{k}\Omega \)) and \( R_2 \) (15 \( \text{k}\Omega \)) connected in series between the output \( v_o \) and the inverting input of the op-amp. There is a resistor \( R_3 \) (2 \( \text{k}\Omega \)) connected to the junction between \( R_f \) and \( R_2 \), and it is tied to ground. Additionally, \( R_4 \) (6 \( \text{k}\Omega \)) is connected in series with a 1 \( \text{k}\Omega \) resistor, and this series combination is connected between the output \( v_o \) and ground. We are required to determine the output voltage \( v_o \) of this circuit. **Provide Answer for \( v_o \) (in V):** --- [Here, students would perform the necessary calculations using the provided circuit diagram to find the output voltage \( v_o \).]