Gauss's law
To be continued by Tony Chen wchen408
Topic Description
Gauss's law is a method to determine the electric field for situations where the charges are contained in a closed surface. Gauss's law relates charges distribution with the concept of electric flux, which is essentially the amount of an electric field passing through a surface. [math]\displaystyle{ \Phi_E = \mathbf{E} \cdot \mathrm{d}\mathbf{A}\cos\Theta }[/math]. Gauss's law is always true, but for physics 2, it becomes only when calculating the electric field in situations with sufficient symmetry:
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Qualitative description
The electric flux that passes through a closed surface can be found by adding up all the charges enclosed by the closed surface divided by the constant ε0; or by adding up all the electric field on the gaussian surface dot dA(the infinitesimal surface area). As illustrate by the equation : [math]\displaystyle{ \Phi_E = \frac{Q}{\varepsilon_0} }[/math], where ΦE is the electric flux through a closed surface S enclosing any volume V, Q is the total electric charge enclosed within S, and ε0 is the electric constant. T
Integral Form
When the surface is not uniform, we can calculate the electric flux by dividing the surface into infinite amount of small patches dA, so all the each patch is essentially flat and the field is essentially uniform over each. Therefore, the flux of each patch is d Φ = E · dA. The total flux is calculated by adding up the contribution of each patch, as illustrated by the equation below.
where E is the electric field, dA is a vector representing an infinitesimal element of area,Template:Refn and · represents the dot product of two vectors.
Since the flux is defined as an integral of the electric field, this expression of Gauss's law is called the integral form.
A VPython Model
Visualizing Gauss's Law in Vpython Model, consider embedding some vpython code here Python Demo By Matter & Interactions 4e
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