Determine the output voltage in terms of v1 and v2. 1.0V 1ka 4kQ A-35.0V 741 1ka 1ka 수-35.0V V2s 1V 142.90 35.0V 741 35.0V

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**Determine the Output Voltage in Terms of V1 and V2** This diagram displays a dual operational amplifier (op-amp) configuration using the 741 op-amp model. Here’s a detailed explanation: ### Topology Description: 1. **First Op-Amp Circuit (Left Side):** - **Input Voltage (V1):** 1.0V is applied. - **Resistors:** - A 1kΩ resistor is connected to the non-inverting input. - A 4kΩ feedback resistor is connected between the output and the inverting input. - **Op-Amp:** The 741 op-amp is used. It is powered by ±35.0V. - The configuration suggests a non-inverting amplifier setup. 2. **Second Op-Amp Circuit (Right Side):** - **Input Voltage (V2):** 1V is applied directly. - **Resistors:** - Two 1kΩ resistors are connected, one to the output and one as feedback. - An additional 142.9Ω resistor connects to the non-inverting input. - **Op-Amp:** Another 741 op-amp is used, similarly powered by ±35.0V. - This setup suggests an inverting amplifier configuration. ### Task: - **Objective:** Determine the output voltage in terms of V1 and V2. ### Options for Output Voltage Expression: - \(4V1 + 7V2\) - \((V1/4) - (V1/7)\) - \(4V1 - 7V2\) - \(-4V1 - 7V2\) This exercise involves calculating the output expression based on the amplifier configurations and given parameters.