What is the explanation for Gauss's Law and the concept of electric flux?

In summary, Gauss's law is a fundamental principle in electromagnetism that states that the electric flux through a closed surface is directly proportional to the charge enclosed within the surface. This flux is defined as the number of electric field lines that cross the surface, and it can be understood intuitively as the number of field lines per unit area. The law can also be applied to other vector fields, such as fluid flow, using the concept of divergence. This concept is also known as the divergence theorem in mathematics and is discussed in Maxwell's book on electricity and magnetism. To fully understand Gauss's law, it is recommended to read Griffiths' book on electrodynamics.
  • #1
thisisfudd
56
0
Hi all,

Can someone give me a better explanation of precisely what Gauss's law and the term "electric flux" mean (better, that is, than Giancoli 6th edition, where they never really define it ). I just want to get a handle on the concept in general.

Thanks ~
 
Physics news on Phys.org
  • #2
A highly intuitive and rather mathematically unrigurous approach would be defining the flux of a vector field (i hopeu know what a vector field is) through a closed surface S as the # of field lines which cross the surface S which encloses some volume.It's intuitive as it allows the interpretation of Gauss' law for magnetostatics as the fact that the vector field B has no sources,since the # of field lines must be zero...
I would still reccomend you to get a grip on Griffiths' book ("Introduction to electrodynamics",irrelevant which edition) and read from there...

Daniel.
 
  • #3
flux is vectors per unit area. In this case it would be electric field per unit area.

if you take an area element dA near a charge it has a high flux because of more field lines. Further away the flux would be lower because there are less field lines.

Gauss's law pretty much says that when you have an enclosed area the flux is directly proportional to the charge enclosed no matter what shape you have your area.
 
  • #4
Flux is vector TIMES AREA.So it's the other way around:vector field is the flux per unit area...

Daniel.
 
  • #5
consider the case of a plane, and an incompressible fluid flowing across the plane in various directions. then the law says the rather obvious fact that if we consider for any period of time, the total flow across the boundary of a circle say, then the samke amount of fluid flows outward across the circle as flows inward across it.

More generally, the differnce between the outward flow, and the inward flow, is equal to the amount of lquid generated from sources inside the circle.

This measured mathematically by arrows giving the magnitude and velocity of the flow at each point, called vector fields. There is an associated concept now called divergence, to measure the total fluid flowing out. Hence the theorem in mathematics is also called the divergence theorem.

This result appears in the introductory mathematical chapter of Maxwell's famous book on electricity and magnetism, where because he uses quaternions instead of vectors, the concept measure flow inward, and hence is called there "convergence".
 

FAQ: What is the explanation for Gauss's Law and the concept of electric flux?

What is Gauss's Law explanation?

Gauss's Law is a fundamental principle in electromagnetism that relates the electric flux through a closed surface to the net electric charge enclosed within that surface.

How does Gauss's Law relate to electric fields?

Gauss's Law states that the electric flux through a closed surface is proportional to the net electric charge enclosed within that surface. This means that the electric field is directly related to the distribution of electric charge.

Can you provide an example of how Gauss's Law is used?

One example of using Gauss's Law is to calculate the electric field of a point charge. By choosing an appropriate Gaussian surface (such as a sphere), the electric flux can be calculated and then related to the charge enclosed to determine the electric field at any point around the charge.

What are the implications of Gauss's Law on electric field lines?

Gauss's Law states that the electric flux through a closed surface is proportional to the net electric charge enclosed within that surface. This means that electric field lines must begin and end on electric charges, and that the number of field lines passing through a surface is directly related to the charge enclosed.

How does Gauss's Law apply to different types of charge distributions?

Gauss's Law is a universal principle that applies to all types of electric charge distributions, whether they are point charges, line charges, or surface charges. The shape and size of the Gaussian surface used to apply the law may vary depending on the type of charge distribution, but the fundamental principle remains the same.

Similar threads

Gauss' Law: Understand How to Calculate Flux
Replies
1
Views
1K
Determining electric field using gauss's law--different distributions
Replies
3
Views
1K
Electric Flux for a cube problem
Replies
8
Views
2K
Gauss' law and flux concept issues
Replies
2
Views
872
I Thought I Understood Gauss' Law (Sheets)
Replies
26
Views
1K
Conceptual understanding/question of guass and Coulomb’s law
Replies
5
Views
1K
Electric field at a point inside a non-uniformly charged sphere
Replies
6
Views
710
Gauss' law for uniformly charged space
Replies
3
Views
2K
Flux due to a charge located at the corner of a cube
Replies
6
Views
2K
Using Gauss' Law to Calculate electric field near rod.
Replies
1
Views
1K

Hot Threads

Recent Insights

Back
Top