Breadcrumbs

 

 

Download ModelDownload SourceembedLaunch Website ES WebEJS

Translations

Code Language Translator Run

Credits

Wolfgang Christian; Tan Wei Chiong

Sample Learning Goals

[text]

For Teachers

This simulation illustrates Faraday's Law of electromagnetic induction, predicting how a magnetic field interacts with an electric field, producing an electromotive force (e.m.f.). Faraday's Law is one of the fundamental laws of electromagnetism.

In this simulation, a straight wire is moved across a pair of parallel wires, in a magnetic field that is either facing into the screen (blue) or out of the screen (red).
The emf-time graph is represented by the graph above the experimental setup and you can vary the magnetic field B(x,t)by adjusting the formula expressing the magnetic field.
The time t is measured in seconds, but do take note that the time in the simulation is faster than real-time.

Research

[text]

Video

[text]

 Version:

  1. http://weelookang.blogspot.sg/2016/02/vector-addition-b-c-model-with.html improved version with joseph chua's inputs
  2. http://weelookang.blogspot.sg/2014/10/vector-addition-model.html original simulation by lookang

Other Resources

[text]

end faq

{accordionfaq faqid=accordion4 faqclass="lightnessfaq defaulticon headerbackground headerborder contentbackground contentborder round5"}

0.5 1 1 1 1 1 1 1 1 1 1 Rating 0.50 (1 Vote)