The output Y of following circuit for given inputs is :
- \(A \cdot B (A + B)\)
- \(A \cdot B\)
- 0
- \(\overline{A} \cdot B\)
The Correct Option is C
Approach Solution - 1
To solve this problem, we need to analyze the logic circuit depicted in the given image. The circuit consists of AND, OR, and NOT gates.
Let's break down the circuit step-by-step:
- The input A is connected to both an OR gate and an AND gate.
- The input B is connected to a NOT gate. Thus, it outputs \(\overline{B}\).
- The OR gate takes inputs A and B, resulting in the output \(A + B\).
- The AND gate combines input A and NOT B, giving the output \(A \cdot \overline{B}\).
- Finally, these two outputs from the OR and the AND gates are inputs to another AND gate, thus:
The final output Y from the AND gate is:
\(Y = (A + B) \cdot (A \cdot \overline{B})\)
We analyze this expression:
- The term \(A \cdot \overline{B}\) means A is true and B is false.
- The expression \((A + B)\) evaluates to true if either A or B is true.
- Combining \((A + B)\) with \((A \cdot \overline{B})\) in an AND operation results in:
- If A is true and B is false, \((A \cdot \overline{B})\) is true, but for the AND operation with \((A + B)\) to hold, B must be false.
- If B is true, \((A \cdot \overline{B})\) becomes false, leading the overall expression to false.
Therefore, the output Y will always be zero because the condition for it to be true is not exclusively satisfied.
Conclusion: The correct answer is \(0\).
Approach Solution -2
Using the truth table:
| A | B | Y |
|---|---|---|
| 0 | 0 | 0 |
| 0 | 1 | 0 |
| 1 | 0 | 0 |
| 1 | 1 | 0 |
Thus, \( Y = 0 \).
Final Answer: 0.
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