Q. No.A combination of logic gates is shown in the circuit. If \(A\) is at \(0\) V and \(B\) is at \(5\) V, then the potential of \(R\) is:
1.
\(0\) V
2.
\(5\) V
3.
\(10\) V
4.
Any of these
How many minimum number of NOR gates are required to obtain an AND gate?
1. One
2. Two
3. Three
4. Five
The circuit shown below is an electrical analogue for which of the following logic gates?
1. AND gate
2. OR gate
3. NOT gate
4. NOR gate
What is the equivalent resistance across the terminals of the battery if the diodes are ideal?
| 1. | \(10~ \Omega\) | 2. | \(20~ \Omega\) |
| 3. | \(15~ \Omega\) | 4. | \({10\over3} ~ \Omega\) |
What is the name of the logic gate represented by the following symbol?
1. NOR
2. OR
3. NAND
4. AND
For the logic circuit given below, the output \(Y\) for \(A=0,B=0\) and \(A=1,B=1\) are:
1. \(0\) and \(1\)
2. \(0\) and \(0\)
3. \(1\) and \(0\)
4. \(1\) and \(1\)
| 1. | becomes four times the initial value. |
| 2. | becomes one-fourth of the initial value. |
| 3. | remains unchanged. |
| 4. | becomes half of the initial value. |
A Zener diode is used to obtain a constant voltage. If the applied voltage \(V\) changes, then:
(\( V\) is more than Zener voltage)
| 1. | \(i_{1}\) and \(i_{2}\) change. |
| 2. | \(i_{2}\) and \( V_{0}\) change and \(i_{3}\) remain constant. |
| 3. | \(i_{2}\) and \(V_{0}\) don't change while \(i_{3}\) changes. |
| 4. | \(i_{3}\) and \( V_{0}\) don't change while \(i_{2}\) changes. |
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