Why Are There Two Forms of the Poisson Equation?

AI Thread Summary
The discussion centers on the two forms of the Poisson equation, highlighting the difference between the equations del2V(r) = -p(r)/e and del2V(r) = -4*pi*p(r)/e. The first equation is identified as the Poisson equation in MKS units, while the second is related to CGS units, with the 4*pi factor arising from unit conversion. Participants clarify that the presence of permittivity "e" indicates a macroscopic version of the equation applicable to linear media. The conversation reflects the confusion caused by varying unit systems in electrodynamics. Ultimately, the discussion resolves the initial confusion regarding the equations' contexts and applications.
mysubs
Messages
4
Reaction score
0
Hello everybody

I've been searching this today but I am a bit lost now. I've encountered two forms of Gauss law in its differential form, Poisson equation :

del2V(r) = -p(r)/e

del2V(r) = -4*pi*p(r)/e

where V:e.potential, p:charge density, e:permivity

Now, what's the difference between these two /or/ where does the (4pi) in the second one comes from?

Mathematically they are not equivalent, but they are presented as such. Any opinions?
 
Physics news on Phys.org
hello,

your first equation looks like Poisson eq. in MKS units. The second eq. confuses me too. Without the "e" in denominator, this equation would become Poisson eq. in cgs units.

Check: http://scienceworld.wolfram.com/physics/PoissonsEquation.html"

cheers
 
Last edited by a moderator:
Hi snapback,

I've already came across this link during my search, but the equation in mind was with "e".

I encountered the equation in Holst book of poissn-bltzman eq., I can't see it as a mistake as he built upon it later.

Thanks for the reply
 
Hi mysubs,

do you mean http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.9.9570" by "Holst" ?

Yes, he is indeed using the form with "e" rather extensively. Now, I think this is the CGS version of the the macroscopic form of Poisson equation for a medium with permittivity "e". "Macroscopic" means the version of Poisson eq. where you have actually grad(e grad V(r))=... and it is assumed that it is a linear medium, so that "e" is a scalar.

I haven't seen this version before, and will add it as another chapter in "my personal book of annoyance with different unit systems in electrodynamics" ;-)

cheers
 
Last edited by a moderator:
Yes, that one. I thought it might have something to do with this but couldn't think of any connection mathematically.

Now it all works out, and I feel like a complete human being again. Thanks for the help!
 

Thread 'Mechanism of Energy Conservation in Zero-Amplitude Sum of EM Waveforms'

Assume that this is a case where by sheer coincidence, two sources of coherent single-frequency EM wave pulses with equal duration are both fired in opposing directions, with both carrying the same frequency and amplitude and orientation. These two waves meet head-on while moving in opposing directions, and their phases are precisely offset by 180 degrees so that each trough of one wave meets with the crest of the other. This should be true for both the electric and magnetic components of...
View full post »

Similar threads

Confused about the nature of Laplace vs Poisson equation in BVP
Replies
11
Views
3K
A Recover Hamilton equation from 2-form defined on phase space
Replies
3
Views
1K
Calculate potential form poisson equation
Replies
7
Views
2K
Need help with Poisson's equation for a charged cylinder
Replies
4
Views
2K
I Does Poisson's equation hold due to vector potential cancellation?
Replies
3
Views
154
I Integration of Poisson's Equation
Replies
9
Views
4K
A What exactly is a "rare event"? (Poisson point process)
Replies
12
Views
4K
Looking for a modified Poisson distribution
Replies
3
Views
1K
Show that the Poisson Mass Function has the same value for λ and λ-1
Replies
8
Views
2K
Hertz contact stress with prescribed displacement
Replies
2
Views
3K

Hot Threads

Recent Insights

Back
Top