Gauss's law: Difference between revisions
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===A | ===A VPython Model=== | ||
Visualizing Gauss's Law in Vpython Model, consider embedding some vpython code here [http://www.matterandinteractions.org/student/EandM/DemoPrograms/EMPrograms/21-Gauss.py] | |||
==Examples== | ==Examples== | ||
Revision as of 13:29, 29 November 2015
To be continued by Tony Chen wchen408
Short Description of Topic
A metal bar moving through a magnetic field will polarize as a result of magnetic force, and the resulting charge separation, maintained by the magnetic force, is reminiscent of a battery. The polarized bar can then be used to generate an electric current.
Qualitative description
Gauss's law is for finding electric field. 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
The electric flux ΦE is defined as a surface integral of the electric field:
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 [1]
Examples
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