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Which of the following is not true about the Logic gate?
- a)It is an electronic device that implements a Boolean function
- b)It is a digital circuit that has one or more inputs but only one output
- c)There is no logical relationship between input and output voltages
- d)It follows a logical relationship between input and output voltages
Correct answer is option 'C'. Can you explain this answer?
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Most Upvoted Answer
Which of the following is not true about the Logic gate?a)It is an ele...
Introduction:
Logic gates are fundamental building blocks of digital circuits. They are electronic devices that implement Boolean functions, processing input voltages to produce output voltages based on logical relationships. This response explains why option C is not true about logic gates.
Logical Relationship between Input and Output Voltages:
Logic gates follow a logical relationship between input and output voltages based on Boolean algebra. The input voltages to a logic gate can be either high (1) or low (0), and the output voltage will be determined by the specific logic function implemented by the gate.
Types and Functions of Logic Gates:
There are several types of logic gates, each with its own specific Boolean function and truth table. Some common types of logic gates include AND, OR, NOT, NAND, NOR, XOR, and XNOR gates. These gates implement different Boolean operations such as conjunction (AND), disjunction (OR), negation (NOT), and exclusive disjunction (XOR).
Input and Output Configuration:
Logic gates have one or more input terminals and a single output terminal. The output voltage of a logic gate is determined by the combination of input voltages and the specific logic function implemented by the gate. The output voltage can be either high (1) or low (0) based on the logical relationship between the inputs and the gate's function.
Importance of Logical Relationship:
The logical relationship between input and output voltages is crucial for the proper functioning of digital circuits. It ensures that the circuits perform the desired operations based on the input conditions. The logical relationship allows for the manipulation and processing of binary data in digital systems, enabling various applications such as arithmetic operations, data storage, and control functions.
Conclusion:
In summary, logic gates are electronic devices that implement Boolean functions and process input voltages to produce output voltages. The logical relationship between the input and output voltages allows for the proper functioning of digital circuits. Option C, which states that there is no logical relationship between input and output voltages, is not true about logic gates.
Logic gates are fundamental building blocks of digital circuits. They are electronic devices that implement Boolean functions, processing input voltages to produce output voltages based on logical relationships. This response explains why option C is not true about logic gates.
Logical Relationship between Input and Output Voltages:
Logic gates follow a logical relationship between input and output voltages based on Boolean algebra. The input voltages to a logic gate can be either high (1) or low (0), and the output voltage will be determined by the specific logic function implemented by the gate.
Types and Functions of Logic Gates:
There are several types of logic gates, each with its own specific Boolean function and truth table. Some common types of logic gates include AND, OR, NOT, NAND, NOR, XOR, and XNOR gates. These gates implement different Boolean operations such as conjunction (AND), disjunction (OR), negation (NOT), and exclusive disjunction (XOR).
Input and Output Configuration:
Logic gates have one or more input terminals and a single output terminal. The output voltage of a logic gate is determined by the combination of input voltages and the specific logic function implemented by the gate. The output voltage can be either high (1) or low (0) based on the logical relationship between the inputs and the gate's function.
Importance of Logical Relationship:
The logical relationship between input and output voltages is crucial for the proper functioning of digital circuits. It ensures that the circuits perform the desired operations based on the input conditions. The logical relationship allows for the manipulation and processing of binary data in digital systems, enabling various applications such as arithmetic operations, data storage, and control functions.
Conclusion:
In summary, logic gates are electronic devices that implement Boolean functions and process input voltages to produce output voltages. The logical relationship between the input and output voltages allows for the proper functioning of digital circuits. Option C, which states that there is no logical relationship between input and output voltages, is not true about logic gates.
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Which of the following is not true about the Logic gate?a)It is an ele...
CONCEPT:
- Logic gate: The digital circuit that can be analyzed with the help of Boolean algebra is called a logic gate or logic circuit.
- A logic gate has two or more inputs but only one output.
- There are primarily three logic gates namely the OR gate, the AND gate, and the NOT gate.
A logic gate has one or more inputs but only one output. Thus, option 2 is correct.
It is an electronic device that implements a Boolean function. Thus option 1 is correct.
A logic gate follows a logical relationship between input and output voltages. Thus option 3 is incorrect.
It is an electronic device that implements a Boolean function. Thus option 1 is correct.
A logic gate follows a logical relationship between input and output voltages. Thus option 3 is incorrect.
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Which of the following is not true about the Logic gate?a)It is an electronic device that implements a Boolean functionb)It is a digital circuit that has one or more inputs but only one outputc)There is no logical relationship between input and output voltagesd)It follows a logical relationship between input and output voltagesCorrect answer is option 'C'. Can you explain this answer?
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