Semiconductor Electronics-Materials, Devices And Simple Circuits MCQs With Answers – Part 5 (Class 12 Physics)
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Semiconductor Electronics-Materials, Devices and Simple Circuits MCQs with Answers – Part 5 (Class 12 Physics)

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411. The output of a two-input \(NAND\) gate is connected to both inputs of another \(NAND\) gate. The overall circuit behaves as:
ⓐ. \(AND\) gate
ⓑ. \(OR\) gate
ⓒ. \(NOR\) gate
ⓓ. \(NOT\) gate with input \(A\) only
412. Use the circuit description below.
Two \(NAND\) gates are first used as inverters to produce \(\overline{A}\) and \(\overline{B}\). These two inverted signals are then applied to a third \(NAND\) gate.
The final output is:
ⓐ. \(A\cdot B\)
ⓑ. \(A+B\)
ⓒ. \(\overline{A+B}\)
ⓓ. \(\overline{A\cdot B}\)
413. Use the circuit description below.
Two \(NOR\) gates are first used as inverters to produce \(\overline{A}\) and \(\overline{B}\). These two inverted signals are then applied to a third \(NOR\) gate.
The final output is:
ⓐ. \(A+B\)
ⓑ. \(A\cdot B\)
ⓒ. \(\overline{A+B}\)
ⓓ. \(\overline{A\cdot B}\)
414. Study the truth table for a logic circuit.
\(A\)\(B\)\(Y\)
\(0\)\(0\)\(0\)
\(0\)\(1\)\(1\)
\(1\)\(0\)\(1\)
\(1\)\(1\)\(1\)
The simplest two-input gate represented is:
ⓐ. \(OR\)
ⓑ. \(AND\)
ⓒ. \(NAND\)
ⓓ. \(NOR\)
415. A logic circuit has output \(Y=\overline{A}+B\). The output for \(A=1\) and \(B=0\) is:
ⓐ. \(0\)
ⓑ. \(1\)
ⓒ. \(A\cdot B\)
ⓓ. \(\overline{A+B}\)
416. A logic circuit has \(Y=A\cdot\overline{B}+C\). For \(A=1\), \(B=1\), and \(C=0\), the output is:
ⓐ. \(1\)
ⓑ. \(0\)
ⓒ. \(A+B\)
ⓓ. \(\overline{C}\)
417. A claim says: “A \(NAND\) gate is the same as an \(OR\) gate because both usually give output \(1\) in many input cases.” The best evaluation is:
ⓐ. The claim is suitable because the number of \(1\) outputs is the only important feature
ⓑ. The claim is suitable only when both inputs are \(1\)
ⓒ. The claim is unsuitable because \(NAND\) gates cannot have two inputs
ⓓ. The claim is unsuitable; truth tables and Boolean expressions differ.
418. Consider the following statements about universal gates. I. A \(NAND\) gate with tied inputs can act as a \(NOT\) gate. II. A \(NOR\) gate with tied inputs can act as a \(NOT\) gate. III. Universal gates cannot be used to construct \(AND\) or \(OR\) gates. The valid statements are:
ⓐ. II and III only
ⓑ. I and III only
ⓒ. I and II only
ⓓ. I, II, and III
419. A logic system uses \(1\) to mean “switch closed” and \(0\) to mean “switch open.” Two switches must both be closed for a lamp to glow. The suitable logic gate model is:
ⓐ. \(AND\)
ⓑ. \(OR\)
ⓒ. \(NOT\)
ⓓ. \(NOR\)
420. In another switching system, a warning light should turn on if either sensor \(P\) or sensor \(Q\) detects a fault. The suitable logic gate is:
ⓐ. \(AND\)
ⓑ. \(NOT\)
ⓒ. \(NAND\) only
ⓓ. \(OR\)
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