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Semiconductor Electronics Material Devices and Simple Circuits

151263 The output of a NOR gate is HIGH when

1 All inputs are HIGH
2 Any input is HIGH
3 Any input is LOW
4 All inputs are LOW
TS- EAMCET.11.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151264 The Boolean expression of the circuit given in figure is
original image

1 \(\mathrm{Y}=\mathrm{A}+\overline{\mathrm{B}}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\mathrm{B}\)
4 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
TS- EAMCET-10.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151265 The inputs and outputs for different time intervals are given below the NAND gate
{lccc}
| Time Inputs A Inputs B Outputs Y\)|
|---|
\( \(_1\) tot \(_2\) 0 1 \(\)\)
\( \(_2\) tot \(_3\) 0 0 \(\)\)
\( \(_3 _4\) 1 0 \(\)\)
\( \(_4\) tot \(_5\) 1 1 \(\)\)
\(
The value taken by \(P, Q, R, S\) are respectively

1 \(1,1,1,0\)
2 \(0,1,0,1\)
3 \(0,1,0,0\)
4 \(1,0,1,1\)
|---|
Semiconductor Electronics Material Devices and Simple Circuits

151266 What is the Boolean equation for the figure?
original image

1 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\overline{\mathrm{B}}\)
4 \(\mathrm{Y}=\mathrm{A} \cdot \mathrm{B}\)
Manipal UGET-2017
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Semiconductor Electronics Material Devices and Simple Circuits

151263 The output of a NOR gate is HIGH when

1 All inputs are HIGH
2 Any input is HIGH
3 Any input is LOW
4 All inputs are LOW
TS- EAMCET.11.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151264 The Boolean expression of the circuit given in figure is
original image

1 \(\mathrm{Y}=\mathrm{A}+\overline{\mathrm{B}}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\mathrm{B}\)
4 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
TS- EAMCET-10.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151265 The inputs and outputs for different time intervals are given below the NAND gate
{lccc}
| Time Inputs A Inputs B Outputs Y\)|
|---|
\( \(_1\) tot \(_2\) 0 1 \(\)\)
\( \(_2\) tot \(_3\) 0 0 \(\)\)
\( \(_3 _4\) 1 0 \(\)\)
\( \(_4\) tot \(_5\) 1 1 \(\)\)
\(
The value taken by \(P, Q, R, S\) are respectively

1 \(1,1,1,0\)
2 \(0,1,0,1\)
3 \(0,1,0,0\)
4 \(1,0,1,1\)
|---|
Semiconductor Electronics Material Devices and Simple Circuits

151266 What is the Boolean equation for the figure?
original image

1 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\overline{\mathrm{B}}\)
4 \(\mathrm{Y}=\mathrm{A} \cdot \mathrm{B}\)
Manipal UGET-2017
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Semiconductor Electronics Material Devices and Simple Circuits

151263 The output of a NOR gate is HIGH when

1 All inputs are HIGH
2 Any input is HIGH
3 Any input is LOW
4 All inputs are LOW
TS- EAMCET.11.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151264 The Boolean expression of the circuit given in figure is
original image

1 \(\mathrm{Y}=\mathrm{A}+\overline{\mathrm{B}}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\mathrm{B}\)
4 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
TS- EAMCET-10.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151265 The inputs and outputs for different time intervals are given below the NAND gate
{lccc}
| Time Inputs A Inputs B Outputs Y\)|
|---|
\( \(_1\) tot \(_2\) 0 1 \(\)\)
\( \(_2\) tot \(_3\) 0 0 \(\)\)
\( \(_3 _4\) 1 0 \(\)\)
\( \(_4\) tot \(_5\) 1 1 \(\)\)
\(
The value taken by \(P, Q, R, S\) are respectively

1 \(1,1,1,0\)
2 \(0,1,0,1\)
3 \(0,1,0,0\)
4 \(1,0,1,1\)
|---|
Semiconductor Electronics Material Devices and Simple Circuits

151266 What is the Boolean equation for the figure?
original image

1 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\overline{\mathrm{B}}\)
4 \(\mathrm{Y}=\mathrm{A} \cdot \mathrm{B}\)
Manipal UGET-2017
For More Updates join with Us
Semiconductor Electronics Material Devices and Simple Circuits

151263 The output of a NOR gate is HIGH when

1 All inputs are HIGH
2 Any input is HIGH
3 Any input is LOW
4 All inputs are LOW
TS- EAMCET.11.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151264 The Boolean expression of the circuit given in figure is
original image

1 \(\mathrm{Y}=\mathrm{A}+\overline{\mathrm{B}}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\mathrm{B}\)
4 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
TS- EAMCET-10.09.2020
Semiconductor Electronics Material Devices and Simple Circuits

151265 The inputs and outputs for different time intervals are given below the NAND gate
{lccc}
| Time Inputs A Inputs B Outputs Y\)|
|---|
\( \(_1\) tot \(_2\) 0 1 \(\)\)
\( \(_2\) tot \(_3\) 0 0 \(\)\)
\( \(_3 _4\) 1 0 \(\)\)
\( \(_4\) tot \(_5\) 1 1 \(\)\)
\(
The value taken by \(P, Q, R, S\) are respectively

1 \(1,1,1,0\)
2 \(0,1,0,1\)
3 \(0,1,0,0\)
4 \(1,0,1,1\)
|---|
Semiconductor Electronics Material Devices and Simple Circuits

151266 What is the Boolean equation for the figure?
original image

1 \(\mathrm{Y}=\mathrm{A}+\mathrm{B}\)
2 \(\mathrm{Y}=\overline{\mathrm{A}+\mathrm{B}}\)
3 \(\mathrm{Y}=\overline{\mathrm{A}}+\overline{\mathrm{B}}\)
4 \(\mathrm{Y}=\mathrm{A} \cdot \mathrm{B}\)
Manipal UGET-2017