Help with Maxwell’s equation in integral form

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The discussion focuses on calculating the displacement flux density vector D for a cylindrical charge distribution with a given charge density. The user initially set up the integral form of Gauss' law but faced challenges in determining the correct volume integral limits in cylindrical coordinates. After clarifying the volume element and integrating, they found the total charge Q_V within the cylinder. The next step involves applying Gauss' theorem to relate the flux of D to the charge, leading to the expression for D as a function of radius. The final expression for D is D = (ρ₀(e - 1)e⁻¹)/(2r) aₘ.
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Electric field due to a cylindrical charge distribution using Gauss' law.
Charge is distributed with density \rho_{0}e^{-r^{2}} C/m^3 in cylindrical region r < 1. Find D (displacement flux density vector) everywhere.

I did used this equation
\int_{s}D\cdot\,dS=\int_{V}\rho\*d\upsilon

Since this is a cylindrical charge distribiution I used Gaussian surface in the shape of a cylinder.

\int_{s}D\cdot\,dS=\rho\*l

So if I understand good the D=0 inside cylinder. therefore r>R is valid.
The surface area is 2\pi\*rL.

I'm having a problem to set up the the equation or I'm doing everything wrong?
Thanks for any help and recommendation.
 
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1.U need to evaluate the charge...What's the charge in the cylinder...?


Daniel.
 
\int_{s}D\cdot\,dS=\int_{V}\rho\*d\upsilon
So fom this I need to evaluate volume integral?

\int_{s}D\cdot\,dS=Q_{V}

Q_{V}=\int_{V}\rho_{0}e^{-r^{2}}

But what limits should I used for x,y,z (0 and 1 for all three)?
Thanks
 
Nope,you need the cilindrical coordinates r,\varphi,z.What's the volume element in cilindrical coordinates...?

Daniel.
 
Q_{V}=\int_{V}\rho_{0}e^{-r^{2}}

Q_{V}=\int_{r=0}^{r}\int_{\phi=0}^{2\pi}\int_{z=0}^{l}\rho_{0}e^{-r^{2}}dr\,d\phi\,dz

Is that correct?
 
U need another "r" in the volume element.And the cilinder has radius 1 (see text of the problem)...

Daniel.
 
Q_{V}=\int_{r=0}^{1}\int_{\phi=0}^{2\pi}\int_{z=0}^{l}\rho_{0}e^{-r^{2}}r dr\,d\phi\,dz

That is not easy integration, but I think I got it.

Q_{V}=l\pi\rho_{0}(e-1)e^{-1}}

Is this is correct what would be next step?
 
It is correct.Now u have to apply Guass' theorem which gives the flux of the induction \vec{D}...

Daniel.
 
if I understand well D depend on r only, so:

\int_{s}D\cdot\,dS=\int_{\phi=0}^{2\pi}\int_{z=0}^{l}D_{r}(r)a_{r}\cdot{r}\,d\phi\,dz\,a_{r}=

=2\pi\,rlD_{r}(r)

And this I should compare to Qv and find D, right?
 
  • #10
It's the same cyclinder of radius unity...That "r" is 1...

Daniel.
 
  • #11
So this is my D

D=\frac{\rho_{0}(e-1)e^{-1}}{2r} a_{r}

I really appreciate your help
 

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