An ideal operational amplifier circuit in the closed-loop negative-feedback configuration is shown in the figure. Determine the output voltage if the input voltage is 1 V. Power rails are ±10 V. Express your result in volts, keep 3 significant digits. + + Vout Vin
An ideal operational amplifier circuit in the closed-loop negative-feedback configuration is shown in the figure. Determine the output voltage if the input voltage is 1 V. Power rails are ±10 V. Express your result in volts, keep 3 significant digits. + + Vout Vin
Introductory Circuit Analysis (13th Edition)
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How do I find the output voltage?
![### Ideal Operational Amplifier Circuit in Closed-Loop Negative-Feedback Configuration
**Description:**
The diagram illustrates an ideal operational amplifier (op-amp) circuit configured in a closed-loop negative-feedback layout.
- **Input Voltage (\(V_{\text{in}}\)):** The input voltage is applied at the non-inverting input (+) of the op-amp.
- **Output Voltage (\(V_{\text{out}}\)):** The output voltage is taken from the op-amp's output terminal.
- **Power Rails:** The op-amp is powered with voltage rails at \( \pm 10 \, \text{V} \).
**Task:**
1. **Objective:** Determine the output voltage (\(V_{\text{out}}\)) of the circuit, given that the input voltage (\(V_{\text{in}}\)) is 1 V.
2. **Constraints:** Ensure your final answer maintains three significant digits.
3. **Configuration Detail:**
- The feedback loop connects the output to the inverting input (-), stabilizing the circuit.
This basic setup is commonly used for amplification purposes where precision and stability are key due to reliable feedback control.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Faf81dbf2-b6fb-4065-8511-c1af70f799d8%2Ff9aa0d31-98cb-4e3c-97ae-8b547bbebe36%2F8d62857_processed.png&w=3840&q=75)
Transcribed Image Text:### Ideal Operational Amplifier Circuit in Closed-Loop Negative-Feedback Configuration
**Description:**
The diagram illustrates an ideal operational amplifier (op-amp) circuit configured in a closed-loop negative-feedback layout.
- **Input Voltage (\(V_{\text{in}}\)):** The input voltage is applied at the non-inverting input (+) of the op-amp.
- **Output Voltage (\(V_{\text{out}}\)):** The output voltage is taken from the op-amp's output terminal.
- **Power Rails:** The op-amp is powered with voltage rails at \( \pm 10 \, \text{V} \).
**Task:**
1. **Objective:** Determine the output voltage (\(V_{\text{out}}\)) of the circuit, given that the input voltage (\(V_{\text{in}}\)) is 1 V.
2. **Constraints:** Ensure your final answer maintains three significant digits.
3. **Configuration Detail:**
- The feedback loop connects the output to the inverting input (-), stabilizing the circuit.
This basic setup is commonly used for amplification purposes where precision and stability are key due to reliable feedback control.
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