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Welcome to the Simplification of Boolean Functions MCQs Page

Dive deep into the fascinating world of Simplification of Boolean Functions with our comprehensive set of Multiple-Choice Questions (MCQs). This page is dedicated to exploring the fundamental concepts and intricacies of Simplification of Boolean Functions, a crucial aspect of Digital Logic Design. In this section, you will encounter a diverse range of MCQs that cover various aspects of Simplification of Boolean Functions, from the basic principles to advanced topics. Each question is thoughtfully crafted to challenge your knowledge and deepen your understanding of this critical subcategory within Digital Logic Design.

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Check out the MCQs below to embark on an enriching journey through Simplification of Boolean Functions. Test your knowledge, expand your horizons, and solidify your grasp on this vital area of Digital Logic Design.

Note: Each MCQ comes with multiple answer choices. Select the most appropriate option and test your understanding of Simplification of Boolean Functions. You can click on an option to test your knowledge before viewing the solution for a MCQ. Happy learning!

Simplification of Boolean Functions MCQs | Page 3 of 5

Explore more Topics under Digital Logic Design

Q21.
Complement of F' gives back
Discuss
Answer: (b).F
Q22.
Unchecked terms in the table forms are
Discuss
Answer: (c).Prime Implications
Q23.
If 1's represents minterms then 0's represents
Discuss
Answer: (a).maxterms
Q24.
Dual complement can be represented as
Discuss
Answer: (a).(f ')'
Q25.
The gates most found in integrated circuits are
Discuss
Answer: (b).NAND, NOR
Q26.
The karnaugh map is also known as
Discuss
Answer: (a).veitch diagram
Q27.
NOR gate is implementation of
Discuss
Answer: (b).OR gates
Q28.
Eight minterms will be used for
Discuss
Answer: (a).three variables
Q29.
Combining the maximum possible no of adjacent squares in a map is called
Discuss
Answer: (c).prime implicant
Discuss
Answer: (c).conventional symbol
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