An ideal operational amplifier circuit in the closed-loop negative-feedback configuration is shown in the figure. V, = 12 V. Determine output voltage. Power rails are ±20 V. Express your result in volts, keep 3 significant digits. %3D 1 kQ Vout 5 mA + Vs

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**Text Explanation:** An ideal operational amplifier circuit in *the closed-loop negative-feedback configuration* is shown in the figure. \( V_s = 12 \, \text{V} \). Determine output voltage. Power rails are \( \pm 20 \, \text{V} \). Express your result in volts, keep 3 significant digits. **Diagram Explanation:** The diagram represents an ideal operational amplifier (op-amp) circuit configured in a closed-loop with negative feedback. Key components and connections include: - **Op-amp**: Shown with the typical triangular symbol indicating the inverting (-) and non-inverting (+) inputs. - **Feedback Resistor**: 1 kΩ resistor connecting the output back to the inverting input. - **Current Source**: A 5 mA current source connected to the inverting input and ground. - **Voltage Source**: \( V_s = 12 \, \text{V} \) connected to the non-inverting input. - **Power Rails**: Indicated as \( \pm 20 \, \text{V} \) for the operational amplifier. - **Output Voltage (\( V_{\text{out}} \))**: Marked at the op-amp's output terminal and referenced to ground. The circuit's task is to find the output voltage (\( V_{\text{out}} \)).