Problem 4 - Find vo if va=0.25V and vb-0.1V. 250 ΚΩ Va Ub 5 ΚΩ www 25 ΚΩ www Vo

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FIND VO OP AMP( NEED NEAT HANDWRITTEN SOLUTION ONLY OTHERWISE DOWNVOTE).

**Problem 4** – Find \( v_0 \) if \( v_a = 0.25V \) and \( v_b = 0.1V \).

The diagram illustrates an op-amp configuration with two voltage sources \( v_a \) and \( v_b \). The elements and connections within the circuit are as follows:

- There are three resistors, labeled 5 kΩ, 25 kΩ, and 250 kΩ.
- The 5 kΩ resistor is connected to \( v_a \), which is 0.25V.
- The 25 kΩ resistor is connected to \( v_b \), which is 0.1V.
- Both resistors then converge to a common node which is connected to the inverting input (marked with a minus sign) of the op-amp.
- The non-inverting input (marked with a plus sign) of the op-amp is grounded (connected to 0V).
- A feedback resistor with a value of 250 kΩ is connected between the output ( \( v_0 \) ) and the inverting input of the op-amp.

The goal of the problem is to determine the output voltage \( v_0 \) based on the given input voltages and resistor values. This involves applying the appropriate op-amp rules and techniques to solve for \( v_0 \).
Transcribed Image Text:**Problem 4** – Find \( v_0 \) if \( v_a = 0.25V \) and \( v_b = 0.1V \). The diagram illustrates an op-amp configuration with two voltage sources \( v_a \) and \( v_b \). The elements and connections within the circuit are as follows: - There are three resistors, labeled 5 kΩ, 25 kΩ, and 250 kΩ. - The 5 kΩ resistor is connected to \( v_a \), which is 0.25V. - The 25 kΩ resistor is connected to \( v_b \), which is 0.1V. - Both resistors then converge to a common node which is connected to the inverting input (marked with a minus sign) of the op-amp. - The non-inverting input (marked with a plus sign) of the op-amp is grounded (connected to 0V). - A feedback resistor with a value of 250 kΩ is connected between the output ( \( v_0 \) ) and the inverting input of the op-amp. The goal of the problem is to determine the output voltage \( v_0 \) based on the given input voltages and resistor values. This involves applying the appropriate op-amp rules and techniques to solve for \( v_0 \).
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