V₁ R₁ www V₂ R₂ www R3 www +Vcc + -Vcc Find the output voltage V_o of the opamp. The values of the components are V_1-1 R3- 19000 Ohms R1- 36000 Ohms R2- 19000 Ohms V V_2=0.6V Vcc+= 15V Vcc- = -15V

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Here is a detailed explanation and transcription of the operational amplifier circuit diagram: ### Circuit Diagram Explanation The diagram is a representation of an operational amplifier (op-amp) in a specific configuration. It includes the following components and connections: - **V1 and V2:** These are voltage sources connected to the inverting and non-inverting inputs of the op-amp. - **R1, R2, and R3:** These are resistors connected in the circuit. R1 is connected to V1, R2 is connected to V2, and R3 is in the feedback loop from the output to the inverting input. - **Op-Amp:** The triangle symbol represents the operational amplifier. It has two inputs (+ and -) and one output (Vo). The non-inverting input is connected to V2 through R2, and the inverting input is connected to V1 through R1. - **Vcc and -Vcc:** These are the positive and negative supply voltages for the op-amp. ### Transcription Find the output voltage Vo of the opamp. The values of the components are: - \(V_1 = 1V\) - \(V_2 = 0.6V\) - \(R_1 = 36000 \, \text{Ohms}\) - \(R_2 = 19000 \, \text{Ohms}\) - \(R_3 = 19000 \, \text{Ohms}\) - \(Vcc+ = 15V\) - \(Vcc- = -15V\) ### Circuit Function This is a differential amplifier configuration where the op-amp amplifies the difference between the two input voltages (V1 and V2) based on the resistor values.