The logic gate equivalent to the circuit given in the figure is
The logic gate equivalent to the circuit given in the figure is
Show Hint
- NAND
- OR
- AND
- NOR
The Correct Option is A
Solution and Explanation
Top Questions on Logic gates
The logic gate equivalent to the combination of logic gates shown in the figure is
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- Which logic gate is represented by the following combination of logic gates?
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The output (Y) of the given logic implementation is similar to the output of an/a …………. gate.
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For the circuit shown above, the equivalent gate is:
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Which of the following circuits has the same output as that of the given circuit?
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- If the function \( f \) defined by \[ f(x) = \begin{cases} \dfrac{1 - \cos 4x}{x^2}, & x<0 \\ a, & x = 0 \\ \dfrac{\sqrt{x}}{\sqrt{16 + \sqrt{x}} - 4}, & x>0 \end{cases} \] is continuous at \( x = 0 \), then \( a = \)
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If \( \vec{u}, \vec{v}, \vec{w} \) are non-coplanar vectors and \( p, q \) are real numbers, then the equality:
\[ [3\vec{u} \quad p\vec{v} \quad p\vec{w}] - [p\vec{v} \quad \vec{w} \quad q\vec{u}] - [2\vec{w} \quad q\vec{v} \quad q\vec{u}] = 0 \]
holds for:
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Statement-I: In the interval \( [0, 2\pi] \), the number of common solutions of the equations
\[ 2\sin^2\theta - \cos 2\theta = 0 \]
and
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Statement-II: The number of solutions of
\[ 2\cos^2\theta - 3\sin\theta = 0 \]
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If \( A \) and \( B \) are acute angles satisfying
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Then \( A + 2B = \ ? \)
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