Electric Flux: Is it an Integer or a Real Value?

In summary, electric flux is the number of field lines passing through a given area. It is proportional to the density of field lines, and can be a fractional number.
  • #1
aniketp
84
0
I have a doubt about electric flux.
It is said to be the no. of field lines passing through a given area.
But then we integrate it as:
[tex]\int[/tex][tex]\vec{E}[/tex].[tex]\vec{ds}[/tex]=[tex]\Phi[/tex]
However, bein the number of field lines does it not have to be an integer?
 
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  • #2
No, because "field lines" are not absolutely defined. They are merely streamlines of the E vector field, and their density represents the strength of the E field. So, you choose a particular "calibration" when you want to draw field lines; e.g., you might have 1 field line = 1 N/C, or you might have 1 field line = 1.5 N/C, etc., and you just draw the streamlines appropriately close together or far apart.

But if, say, your field strength at a particular point is 1.3 N/C, then this amounts to 1.3 "field lines" under some particular calibration -- a fractional number.

The electric field magnitude is proportional to the density of field lines at a particular point (i.e., field lines per area, taken as a limit as the area gets small). The electric flux is equal to the total field lines in a given area, which is simply integrating the density of lines over the area. It doesn't have to be an integer. For example, if your field lines in one particular place are a meter apart, and the area you're considering is a 45-90-45 triangle with base legs of 1 meter each, then the flux is 0.5 "field lines".

By the way, your formulas will be much more readable if you put the entire formula within one set of [ tex ][ /tex ] tags, rather than wrapping each character individually. For example, typing

[ tex ]\int \vec E \cdot \vec {ds} = \Phi[ /tex ]

will give you

[tex]\int \vec E \cdot \vec {ds} = \Phi[/tex]
 
Last edited:
  • #3
so are field lines just a vague concept developed for better intuitive understanding?
 
  • #4
aniketp said:
so are field lines just a vague concept developed for better intuitive understanding?

No, they're very real; I mean, the E field definitely has streamlines. It's just that they're a continuous number rather than an integer number--you can draw a field line at any point in space; not just at a certain set of discrete points.
 
  • #5
so it is just like where water has molecules but u can't count 'em.
I understood it now. Thanx.
 

Related to Electric Flux: Is it an Integer or a Real Value?

1. Is electric flux an integer or a real value?

Electric flux can have both integer and real values, depending on the situation. In cases where the electric field is constant, the flux will be an integer. However, if the electric field is changing, the flux will be a real value.

2. How is electric flux calculated?

The electric flux is calculated by taking the dot product of the electric field and the surface area vector, and then multiplying by the cosine of the angle between them. This can be expressed as Φ = E · A · cos(θ).

3. What are the units of electric flux?

The SI unit of electric flux is volt-meters (V · m), or newton-meters squared per coulomb (N · m²/C). In terms of base SI units, electric flux is measured in kg · m³/s³ · A.

4. What is the significance of electric flux?

Electric flux is an important concept in electromagnetism as it helps us understand the strength and direction of an electric field through a given surface. It also helps us calculate the total charge enclosed by a surface. Additionally, electric flux is used in many applications, such as in the design of electrical circuits and the study of electric fields in materials.

5. Can electric flux be negative?

Yes, electric flux can be negative. This occurs when the electric field and the surface area vector are in opposite directions, resulting in a negative value for the flux. Negative flux indicates that the electric field is entering the surface, while positive flux indicates that the electric field is leaving the surface.

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