MCQ
The output $y$, when all three inputs are first high and then low, will respectively be
- A$1, 0$
- B$1, 1$
- C$0, 0$
- ✓$0, 1$
✓
Answer
Correct option: D.
$0, 1$
d
Let inputs $A, B$ and Care given to the circuit.
Let inputs $A, B$ and Care given to the circuit.
$Gate-I$ is AND gate, $gate-II$ is $NANO$ gate.
Output $\quad Y=\overline{(A . B . C)}$
when $A=1, B=1, C=1,$ then
$Y=\overline{(1.1) .1}=\overline{1.1}=\overline{1}=0$
when $\quad A=0, B=0, C=0,$ then
$Y=\overline{(0.0) .0}=\overline{0.0}=\overline{0}=1$
Need a full question paper?
Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.
Explore more
Similar questions
The molar specific heat at constant pressure for a monoatomic gas is
A concave lens and a convex lens have same focal length of $20 cm$ and both put in contact this combination is used to view an object $5 cm$ long kept at $20 cm$ from the lens combination. As compared to object the image will be
→A bullet of mass $40 \,g$ is fired from a gun of mass $10 \,kg$. If velocity of bullet is $400 \,m / s$, then the recoil velocity of the gun will be ..........
→A wire of resistance $R_{1}$ is drawn out so that its length is increased by twice of its original length.The ratio of new resistance to original resistance is.
→A body starts from origin and moves along $x$-axis so that its position at any instant is $x=4 t^2-12 t$ where $t$ is in second and $v$ in m/s. What is the acceleration of particle is ............. $m / s ^2$
→Equivalent resistance between the points $A$ and $B$ is (in $\Omega$)
→The cause of Fraunhoffer lines is
A potentiometer having the potential gradient of $2\, mV/cm$ is used to measure the difference of potential across a resistance of $10 \,\Omega$. If a length of $50\, cm$ of the potentiometer wire is required to get the null point, the current passing through the $10 \,\Omega$ resistor is (in $mA$)
→A photocell is illuminated by a small bright source placed $d\; m$ away. When the same source of light is placed $\frac{d}{2}\;m$ away, the number of electrons emitted by photo cathode would
→Resistance across $A B$ as shown in figure is ............. $\Omega$
→