Login
Register
Dark Mode
Brightness
Profile
Edit Profile
Messages
My favorites
My Updates
Logout
Recent questions tagged non-gate
0
votes
1
answer
61
UGC NET CSE | October 2020 | Part 2 | Question: 82
Given below are two statements: Statement $I$: Bezier curves are curves that interpolate all of their control points Statement $II$: A cubic bezier curve has four control points In the light of the above statements, choose the correct answer ... $I$ is correct but Statement $II$ is false Statement $I$ is incorrect but Statement $II$ is true
Given below are two statements:Statement $I$: Bezier curves are curves that interpolate all of their control pointsStatement $II$: A cubic bezier curve has four control p...
go_editor
1.4k
views
go_editor
asked
Nov 20, 2020
Computer Graphics
ugcnetcse-oct2020-paper2
non-gate
computer-graphics
+
–
0
votes
1
answer
62
UGC NET CSE | October 2020 | Part 2 | Question: 85
Statement $I$: Quality control involves the series of inspections, reviews and tests used throughout the software process, to ensure each work product meets the requirements placed upon it. Statement $II$: Quality assurance consists of auditing and ... $I$ is correct but Statement $II$ is false Statement $I$ is incorrect but Statement $II$ is true
Statement $I$: Quality control involves the series of inspections, reviews and tests used throughout the software process, to ensure each work product meets the requireme...
go_editor
1.3k
views
go_editor
asked
Nov 20, 2020
IS&Software Engineering
ugcnetcse-oct2020-paper2
non-gate
is&software-engineering
+
–
0
votes
0
answers
63
NIELIT 2017 OCT Scientific Assistant A (IT) - Section D: 1
Twelve $1\;\Omega$ resistances are used as edges to from a cube. The resistance between two diagonally opposite corners of the cube is $\frac{5}{6}\;\Omega$ $\frac{1}{6}\;\Omega$ $\frac{6}{5}\;\Omega$ $\frac{3}{2}\;\Omega$
Twelve $1\;\Omega$ resistances are used as edges to from a cube. The resistance between two diagonally opposite corners of the cube is$\frac{5}{6}\;\Omega$$\frac{1}{6}\;\...
admin
397
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-it
non-gate
+
–
0
votes
0
answers
64
NIELIT 2017 OCT Scientific Assistant A (IT) - Section D: 6
A solution for the differential equation $x’(t) + 2x(t) = \delta(t)$ with initial condition $x(\overline{0}) = 0$ $e^{-2t}u(t)$ $e^{2t}u(t)$ $e^{-t}u(t)$ $e^{t}u(t)$
A solution for the differential equation $x’(t) + 2x(t) = \delta(t)$ with initial condition $x(\overline{0}) = 0$$e^{-2t}u(t)$$e^{2t}u(t)$$e^{-t}u(t)$$e^{t}u(t)$
admin
404
views
admin
asked
Aug 28, 2020
Calculus
nielit2017oct-assistanta-it
differential-equation
non-gate
+
–
0
votes
0
answers
65
NIELIT 2017 OCT Scientific Assistant A (IT) - Section D: 11
In MOSFET fabrication, the channel; length is defined during the process of Isolation oxide growth Channel stop implantation Poly-silicon gate patterning Lithography step leading to the contact pad
In MOSFET fabrication, the channel; length is defined during the process ofIsolation oxide growthChannel stop implantationPoly-silicon gate patterningLithography step lea...
admin
390
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-it
non-gate
+
–
0
votes
0
answers
66
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 1
Twelve $1\;\Omega$ resistances are used as edges to from a cube. The resistance between two diagonally opposite corners of the cube is $\frac{5}{6}\;\Omega$ $\frac{1}{6}\;\Omega$ $\frac{6}{5}\;\Omega$ $\frac{3}{2}\;\Omega$
Twelve $1\;\Omega$ resistances are used as edges to from a cube. The resistance between two diagonally opposite corners of the cube is$\frac{5}{6}\;\Omega$$\frac{1}{6}\;\...
admin
382
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
1
answer
67
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 2
An ideal op-amp is an ideal voltage controlled current source voltage controlled voltage source current controlled current source current controlled voltage source
An ideal op-amp is an idealvoltage controlled current sourcevoltage controlled voltage sourcecurrent controlled current sourcecurrent controlled voltage source
admin
523
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
0
answers
68
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 3
The final value theorem is used to find the Steady state value of the system output Initial value of the system output Transient behavior of the system output None of these
The final value theorem is used to find theSteady state value of the system outputInitial value of the system outputTransient behavior of the system outputNone of these
admin
359
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
0
answers
69
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 4
For the discrete signal $x[n] = a^{n}u[n],a>0$ the $z$-transform is $\frac{(z+a)}{z}$ $\frac{(z-a)}{z}$ $\frac{z}{(z-a)}$ $\frac{z}{(z+a)}$
For the discrete signal $x[n] = a^{n}u[n],a>0$ the $z$-transform is$\frac{(z+a)}{z}$$\frac{(z-a)}{z}$$\frac{z}{(z-a)}$$\frac{z}{(z+a)}$
admin
335
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
0
answers
70
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 5
For a periodic signal $v(t) = 30\sin 100t + 10\cos 300t + 6\sin(500t + \frac{\pi}{4}),$ the fundamental frequency in rad/s $100$ $300$ $500$ None of these
For a periodic signal $v(t) = 30\sin 100t + 10\cos 300t + 6\sin(500t + \frac{\pi}{4}),$ the fundamental frequency in rad/s$100$$300$$500$None of these
admin
478
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
0
answers
71
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 6
A solution for the differential equation $x’(t) + 2x(t) = \delta(t)$ with initial condition $x(\overline{0}) = 0$ $e^{-2t}u(t)$ $e^{2t}u(t)$ $e^{-t}u(t)$ $e^{t}u(t)$
A solution for the differential equation $x’(t) + 2x(t) = \delta(t)$ with initial condition $x(\overline{0}) = 0$$e^{-2t}u(t)$$e^{2t}u(t)$$e^{-t}u(t)$$e^{t}u(t)$
admin
312
views
admin
asked
Aug 28, 2020
Optimization
nielit2017oct-assistanta-cs
non-gate
differential-equation
+
–
0
votes
0
answers
72
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 7
If the number of bits per sample in a PCM system is increased from a $n$ to $n+1,$ the improvement in signal to quantization nose ratio will be $3\;dB$ $6\;dB$ $2n\;dB$ $n\;dB$
If the number of bits per sample in a PCM system is increased from a $n$ to $n+1,$ the improvement in signal to quantization nose ratio will be$3\;dB$$6\;dB$$2n\;dB$$n\;d...
admin
347
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
1
answer
73
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 8
A carrier $Ac\cos(\omega c)t$ is frequency modulated by a signal $Em\cos(\omega m)t.$ The modulation index is $mf.$ The expression for the resulting FM signal is $Ac\cos [\omega ct + mf\sin(\omega m)t]$ ... $Ac\cos [\omega ct + 2\pi mf Em \cos(\omega m)t/\omega m]$
A carrier $Ac\cos(\omega c)t$ is frequency modulated by a signal $Em\cos(\omega m)t.$ The modulation index is $mf.$ The expression for the resulting FM signal is$Ac\cos ...
admin
402
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
0
answers
74
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 11
In MOSFET fabrication, the channel; length is defined during the process of Isolation oxide growth Channel stop implantation Poly-silicon gate patterning Lithography step leading to the contact pad
In MOSFET fabrication, the channel; length is defined during the process ofIsolation oxide growthChannel stop implantationPoly-silicon gate patterningLithography step lea...
admin
304
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
0
answers
75
NIELIT 2017 OCT Scientific Assistant A (CS) - Section D: 12
The open-loop transfer function of a feedback control system is $G(s)\cdot H(s) = 1/(s+1)^{3}.$ The gain margin of the system is $2$ $4$ $8$ $16$
The open-loop transfer function of a feedback control system is $G(s)\cdot H(s) = 1/(s+1)^{3}.$ The gain margin of the system is $2$$4$$8$$16$
admin
352
views
admin
asked
Aug 28, 2020
Digital Signal Processing
nielit2017oct-assistanta-cs
non-gate
+
–
0
votes
1
answer
76
NIELIT 2016 MAR Scientist C - Section C: 1
The advantage of better testing in software development is in waterfall model prototyping iterative all of these
The advantage of better testing in software development is in waterfall modelprototypingiterativeall of these
admin
1.6k
views
admin
asked
Apr 2, 2020
IS&Software Engineering
nielit2016mar-scientistc
non-gate
is&software-engineering
+
–
0
votes
2
answers
77
NIELIT 2016 MAR Scientist C - Section C: 6
Memory mapped displays are utilized for high resolution graphics such as maps uses ordinary memory to store the display data in character form stores the display data as individual bits are associated with electromechanical teleprinters
Memory mapped displaysare utilized for high resolution graphics such as mapsuses ordinary memory to store the display data in character formstores the display data as ind...
admin
856
views
admin
asked
Apr 2, 2020
Computer Graphics
nielit2016mar-scientistc
non-gate
+
–
0
votes
1
answer
78
NIELIT 2016 MAR Scientist C - Section C: 15
The defining language for developing a formalism in which language definitions can be stated, is called syntactic meta language decidable language intermediate language high level language
The defining language for developing a formalism in which language definitions can be stated, is calledsyntactic meta languagedecidable languageintermediate languagehigh ...
admin
656
views
admin
asked
Apr 2, 2020
Theory of Computation
nielit2016mar-scientistc
theory-of-computation
identify-class-language
non-gate
+
–
0
votes
2
answers
79
NIELIT 2016 MAR Scientist C - Section C: 23
The graph theoretic concept will be useful in software testing is Cyclomatic number Hamiltonian circuit Eulerian cycle None of these
The graph theoretic concept will be useful in software testing is Cyclomatic numberHamiltonian circuitEulerian cycleNone of these
admin
1.7k
views
admin
asked
Apr 2, 2020
IS&Software Engineering
nielit2016mar-scientistc
non-gate
is&software-engineering
+
–
0
votes
2
answers
80
NIELIT 2016 MAR Scientist C - Section C: 24
In testing phase, the effort distribution is upto $10\%$ $20\%$ $40\%$ $50\%$
In testing phase, the effort distribution is upto$10\%$$20\%$$40\%$$50\%$
admin
571
views
admin
asked
Apr 2, 2020
IS&Software Engineering
nielit2016mar-scientistc
non-gate
is&software-engineering
+
–
0
votes
0
answers
81
NIELIT 2016 MAR Scientist C - Section C: 42
A stable multivibrator are used as comparator circuit squaring circuit frequency to voltage converter voltage to frequency converter
A stable multivibrator are used as comparator circuitsquaring circuitfrequency to voltage convertervoltage to frequency converter
admin
339
views
admin
asked
Apr 2, 2020
Digital Signal Processing
nielit2016mar-scientistc
non-gate
+
–
0
votes
0
answers
82
NIELIT 2016 MAR Scientist C - Section C: 43
The astable multivibrator has two quasi stable states two stable states one stable and one quasi-stable state none of these
The astable multivibrator hastwo quasi stable statestwo stable statesone stable and one quasi-stable statenone of these
admin
240
views
admin
asked
Apr 2, 2020
Digital Signal Processing
nielit2016mar-scientistc
non-gate
+
–
0
votes
1
answer
83
NIELIT 2016 MAR Scientist C - Section C: 48
In a microprocessor, WAIT states are used to make the processor wait during a DMA operation make the processor wait during a power interrupt processing make the processor wait during a power shutdown interface slow peripherals to the processor
In a microprocessor, WAIT states are used to make the processor wait during a DMA operation make the processor wait during a power interrupt processingmake the processor ...
admin
606
views
admin
asked
Apr 2, 2020
Digital Signal Processing
nielit2016mar-scientistc
non-gate
microprocessors
+
–
1
votes
0
answers
84
NIELIT 2016 MAR Scientist C - Section B: 1
Choose the most appropriate option. The Newton-Raphson iteration $x_{n+1}=\dfrac{x_{n}}{2}+\dfrac{3}{2x_{n}}$ can be used to solve the equation $x^{2}=3$ $x^{3}=3$ $x^{2}=2$ $x^{3}=2$
Choose the most appropriate option.The Newton-Raphson iteration $x_{n+1}=\dfrac{x_{n}}{2}+\dfrac{3}{2x_{n}}$ can be used to solve the equation$x^{2}=3$$x^{3}=3$$x^{2}=2$$...
admin
393
views
admin
asked
Apr 2, 2020
Numerical Methods
nielit2016mar-scientistc
non-gate
numerical-methods
+
–
0
votes
2
answers
85
NIELIT 2016 MAR Scientist C - Section B: 5
If $f(x,y)=x^{3}y+e^{x},$ the partial derivatives, $\dfrac{\partial f}{\partial x},\dfrac{\partial f}{\partial y}$ are $3x^{2}y+1, \: x^{3}+1$ $3x^{2}y+e^{x}, \: x^{3}$ $x^{3}y+xe^{x}, \: x^{3}+e^{x}$ $2x^{2}y+\dfrac{e^{x}}{x}$
If $f(x,y)=x^{3}y+e^{x},$ the partial derivatives, $\dfrac{\partial f}{\partial x},\dfrac{\partial f}{\partial y}$ are$3x^{2}y+1, \: x^{3}+1$$3x^{2}y+e^{x}, \: x^{3}$$x^{...
admin
404
views
admin
asked
Apr 2, 2020
Others
nielit2016mar-scientistc
non-gate
partial-order
+
–
1
votes
0
answers
86
NIELIT 2016 MAR Scientist C - Section B: 6
If $y=f(x)$, in the interval $[a,b]$ is rotated about the $x$-axis, the Volume of the solid of revolution is $(f’(x)=dy/dx)$ $\int_{a}^{b} \pi [f(x)]^{2} dx \\$ $\int_{a}^{b}[f(x)]^{3} dx \\$ $\int_{a}^{b} \pi [{f}'(x)]^{2} dx \\$ $\int_{a}^{b} \pi^{2} f(x)dx \\$
If $y=f(x)$, in the interval $[a,b]$ is rotated about the $x$-axis, the Volume of the solid of revolution is $(f’(x)=dy/dx)$$\int_{a}^{b} \pi [f(x)]^{2} dx \\$$\int_{a}...
admin
206
views
admin
asked
Apr 2, 2020
Others
nielit2016mar-scientistc
non-gate
+
–
0
votes
0
answers
87
NIELIT 2016 MAR Scientist C - Section B: 7
The area under the curve $y(x)=3e^{-5x}$ from $x=0 \text{ to } x=\infty$ is $\dfrac{3}{5}$ $\dfrac{-3}{5}$ ${5}$ $\dfrac{5}{3}$
The area under the curve $y(x)=3e^{-5x}$ from $x=0 \text{ to } x=\infty$ is$\dfrac{3}{5}$$\dfrac{-3}{5}$${5}$$\dfrac{5}{3}$
admin
306
views
admin
asked
Apr 2, 2020
Others
nielit2016mar-scientistc
non-gate
+
–
0
votes
0
answers
88
NIELIT 2016 MAR Scientist C - Section B: 14
Find the area bounded by the curve $y=\sqrt{5-x^{2}}$ and $y=\mid x-1 \mid$ $\dfrac{2}{0}(2\sqrt{6}-\sqrt{3})-\dfrac{5}{2}$ $\dfrac{2}{3}(6\sqrt{6}+3\sqrt{3})+\dfrac{5}{2}$ $2(\sqrt{6}-\sqrt{3})-5$ $\dfrac{2}{3}(\sqrt{6}-\sqrt{3})+5$
Find the area bounded by the curve $y=\sqrt{5-x^{2}}$ and $y=\mid x-1 \mid$$\dfrac{2}{0}(2\sqrt{6}-\sqrt{3})-\dfrac{5}{2}$$\dfrac{2}{3}(6\sqrt{6}+3\sqrt{3})+\dfrac{5}{2}$...
admin
222
views
admin
asked
Apr 2, 2020
Others
nielit2016mar-scientistc
non-gate
+
–
0
votes
0
answers
89
NIELIT 2016 MAR Scientist C - Section B: 15
The equation of the plane through the point $(-1,3,2)$ and perpendicular to each of the planes $x+2y+3z=5$ and $3x+3y+z=0$ is $7x-8y+3z+25=0$ $7x+8y+3z+25=0$ $7x-8y+3z-25=0$ $7x-8y-3z-25=0$
The equation of the plane through the point $(-1,3,2)$ and perpendicular to each of the planes $x+2y+3z=5$ and $3x+3y+z=0$ is$7x-8y+3z+25=0$$7x+8y+3z+25=0$$7x-8y+3z-25=0$...
admin
232
views
admin
asked
Apr 2, 2020
Others
nielit2016mar-scientistc
non-gate
+
–
0
votes
0
answers
90
NIELIT 2016 MAR Scientist C - Section B: 18
Find the volume of the solid obtained by rotating the region bound by the curves $y=x^3+1, \: x=1$, and $y=0$ about the $x$-axis $\dfrac{23\pi}{7} \\$ $\dfrac{16\pi}{7} \\$ $2\pi \\$ $\dfrac{19\pi}{7}$
Find the volume of the solid obtained by rotating the region bound by the curves $y=x^3+1, \: x=1$, and $y=0$ about the $x$-axis$\dfrac{23\pi}{7} \\$$\dfrac{16\pi}{7} \\$...
admin
224
views
admin
asked
Apr 2, 2020
Others
nielit2016mar-scientistc
non-gate
+
–
Page:
« prev
1
2
3
4
5
6
7
8
...
24
next »
Email or Username
Show
Hide
Password
I forgot my password
Remember
Log in
Register