## Does electric flux depend on volume?

**Gauss’s law** of **electricity**, which is included within the fundamental laws of electromagnetism, states that the **electric flux** through a closed surface with **electric** charge inside, just **depends** on the net charge enclosed in the surface and **does** not **depend** the shape or size of the surface.

## What does electric flux depend on?

The numerical value of the electric flux depends on **the magnitudes of the electric field and the area**, as well as the relative orientation of the area with respect to the direction of the electric field.

## What changes electric flux?

The only way to change the flux is **to move the field**, that is, move the charges that make the field. … and that will make a magnetic field circulation around the change in the flux. The faster the change, the stronger the magnetic field around the area where the change took place.

## Does increasing area increase electric flux?

The **electric flux** through a closed surface (see **Gauss’s Law** ), such as a sphere, is independent of **area** because as the closed surface becomes larger the **electric field will** become weaker but applied over a larger **area**, but the resulting **electric flux will** be the same as the **electric flux** through a smaller closed …

## At what angle electric flux is minimum?

The electric flux through the surface is minimum when the angle between **e and a** is. salonitomar2770 is waiting for your help.

## Is electric flux dependent on shape?

As per the Guess theorem in electrostatics, **electric flux does not depend on the shape** or size of the surface. The electric flux depends only on the charge enclosed by the surface.

## Is electric flux equal to charge?

The total of the **electric flux** out of a closed surface is **equal** to the **charge** enclosed divided by the permittivity. The **electric flux** through an area is defined as the **electric field** multiplied by the area of the surface projected in a plane perpendicular to the **field**.

## What is unit of electric flux?

Electric flux has SI units of **volt metres (V m)**, or, equivalently, newton metres squared per coulomb (N m^{2} C^{−}^{1}).

## How do you find flux?

Flux Through a Surface of Area A. Know the formula for electric flux. The Electric Flux through a surface A is **equal to the dot product of the electric field and area vectors E and A**. The dot product of two vectors is equal to the product of their respective magnitudes multiplied by the cosine of the angle between them …

## Does flux have direction?

These fluxes are vectors at each point in space, and **have a definite magnitude and direction**. Also, one can take the divergence of any of these fluxes to determine the accumulation rate of the quantity in a control volume around a given point in space. For incompressible flow, the divergence of the volume flux is zero.

## Does electric flux have direction?

**Flux has no direction**. You might be confused about the direction of the area element. To answer your question, no, not really. The direction of an area is normal to the surface.