Questions Asked

waterineyes:
Group Title
Question : 15 Signals:
\(y(t) = Real[x(t)]\)
…
 updated 6 days ago
 10 replies
 No Medals Yet

waterineyes:
Group Title
Question : 14 : Signals :
How to \(\color{red}{\text{Convolve}}\) these two signals given below:
…
 updated 7 days ago
 3 replies
 No Medals Yet

waterineyes:
Group Title
Question 13 : Signals:
Consider the system described by :…
 updated 5 days ago
 36 replies
 1 Medal

waterineyes:
Group Title
Question :12  Signals:
Find whether the given Discretetime signal is Periodic. If so, then find its Periodicity..
…
 updated 8 days ago
 91 replies
 3 Medals

waterineyes:
Group Title
Question 11 : Signals :
Is \(\color{green}{y[n] = x[\sqrt{n}]}\) a Causal System??
 updated 8 days ago
 16 replies
 2 Medals

waterineyes:
Group Title
Is it to do with \(\color{green}{\textsf{Gamma Function}}\) ??
\[\color{blue}{\int\limits_{\infty}^{\infty}(e^{x^2} \cdot x^2) dx}\]
…
 updated 11 days ago
 33 replies
 5 Medals

waterineyes:
Group Title
Question 10: Signals 
The following signal x(t) is given, Sketch \(\large \color{green}{x(1  \frac{t}{2})}\)
 updated 7 days ago
 15 replies
 1 Medal

waterineyes:
Group Title
Just I am recalling it:
Don't reply to it, until I permit.. :)
 updated 13 days ago
 47 replies
 1 Medal

waterineyes:
Group Title
Question  9 : Signals :
How this system is TimeInvariant??…
 updated 11 days ago
 54 replies
 5 Medals

waterineyes:
Group Title
Question : 8  Signals :
What is its Convolution??
…
 updated 11 days ago
 176 replies
 5 Medals

waterineyes:
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What does \(\color{green}{\textsf{"Rhetorical"}}\) (In Comprehensions) mean??
 updated 10 days ago
 3 replies
 1 Medal

waterineyes:
Group Title
Question : 7  Signals:
The continuous time Convolution Integrals \(y(t) = cos( \pi t)[u(t+1)  u(t1)] * u(t)\) is ??
…
 updated 14 days ago
 34 replies
 1 Medal

waterineyes:
Group Title
To Physics Lovers :
If you want to experience \(\color{blue}{\textsf{Electricity And Magnetism}}\), then you must watch \(\color{green}{\…
 updated 14 days ago
 2 replies
 1 Medal

waterineyes:
Group Title
Question : 6 Signals :
How to check this system is timevariant or invariant??
…
 updated 16 days ago
 No Medals Yet

waterineyes:
Group Title
Question : 5 Signals :
\[\large \color{green}{y(t) = \frac{1}{T} \int\limits_{t  \frac{T}{2}}^{t + \frac{T}{2}}x(t) \cdot dt}\]
…
 updated 16 days ago
 59 replies
 2 Medals

waterineyes:
Group Title
@Monica01
 updated 17 days ago
 120 replies
 2 Medals

waterineyes:
Group Title
Question : 4  Signals:
How to check whether the given system is \(\color{green}{\text{Time Invariant}}\) or \(\color{red}{\text{Time Var…
 updated 16 days ago
 24 replies
 1 Medal

waterineyes:
Group Title
Show that the electric Field \(\text{E}\) outside a \(\color{red}{\text{Spherical Shell}}\) of Uniform Volume Charge Density \(\large \color…
 updated 17 days ago
 14 replies
 3 Medals

waterineyes:
Group Title
Question 3 : Signals :
How this is true? I am not getting it properly..…
 updated 22 days ago
 5 replies
 1 Medal

waterineyes:
Group Title
Question : 2 Signals:
Is DC Signal a Periodic Signal or Nonperiodic Signal??
 updated 26 days ago
 12 replies
 1 Medal

waterineyes:
Group Title
Question 1 : Signals :
Represent the following functions in terms of g(t)..
…
 updated 27 days ago
 43 replies
 3 Medals

waterineyes:
Group Title
A Uniform charge density of \(\color{blue}{2 \; \; C/m^3}\) exists in the volume \(\color{green}{2 \le x \le 4}\). Use Gauss's Law to find \…
 updated 26 days ago
 13 replies
 1 Medal

waterineyes:
Group Title
A point charge \(\color{blue}{Q}\) is at the Origin of a Spherical Coordinate System. Find the \(\color{blue}{\textsf{Flux}}\) which crosse…
 updated 28 days ago
 12 replies
 1 Medal

waterineyes:
Group Title
A uniform line charge \(\large \color{green}{\rho_l}\) lies along the \(\color{green}{xaxis}\). What \(\color{red}{\textsf{percent of Flux}…
 updated 29 days ago
 18 replies
 1 Medal

waterineyes:
Group Title
Find \(\color{red}{x}\).
\(\color{green}{y^2 + 2y + 1 = 0}\)
 updated one month ago
 63 replies
 7 Medals

waterineyes:
Group Title
Given :
\(\large \color{green}{r = x \hat{a_x} + y \hat{a_y} + z \hat{a_z}}\) and \(\large \color{blue}{r = r}\), then find the Diverge…
 updated one month ago
 49 replies
 7 Medals

waterineyes:
Group Title
Given that :
\[\large \color{green}{D = 30 e^{\frac{\rho}{b}}\hat{a_{\rho}}  2\frac{z}{b} \hat{a_z}} \; \; \; \; C/m^2\]
in Cylindrical Co…
 updated one month ago
 6 replies
 No Medals Yet

waterineyes:
Group Title
Given that : \(\color{red}{D = 5x^2a_x + 10za_z \; \; \mu C/m^2}\)
Find the \(\color{green}{\textsf{Net Outward Flux}}\) crossing the sur…
 updated one month ago
 6 replies
 1 Medal

waterineyes:
Group Title
Find the force on a point charge of \(30 \; \mu C\) at \((0,0,5) \;m\) due to a \(4 \; m\) square in the \(z=0\) plane between \(x = \pm 2\…
 updated one month ago
 26 replies
 No Medals Yet

waterineyes:
Group Title
\(\color{green}{\textsf {Integrate :}}\)
\[\large \color{blue}{\int\limits \frac{x^2}{(x^2 + (zc)^2)^\frac{3}{2}} dx}\]
 updated 2 months ago
 28 replies
 4 Medals
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