Canadian light source electromagnetic radiation

AI Thread Summary
The Canadian Light Source (CLS), a synchrotron opened in October 2004, generates electromagnetic radiation for material structure analysis. It utilizes electric and magnetic fields to accelerate and direct electrons, which in turn emit electromagnetic radiation due to their acceleration. The design of the CLS must incorporate principles of relativity to account for the behavior of electrons at high speeds. The discussion also highlights concerns about double posting in forums, emphasizing the importance of proper thread management. Overall, the CLS serves as a vital tool in scientific research by enabling detailed material investigations.
kiwikiwi79
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newtoPF-how do you delete this thread?

i wasn't sure about where to post...sorry for double posting...but how do you delete this anyways...?
 
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kiwikiwi79 said:
Please help me answer these questions~~~thank you~~

In October, 2004, the Canadian Light Source (CLS) was officially opened. This device is a synchrotron. It produces electromagnetic radiation that can be used to probe the structure of materials.
1. Explain how electric and magnetic fields are employed to move electrons in the CLS.
2. Why do the electrons produce electromagnetic radiation?
3. Does relativity theory need to be incorporated into the design of the CLS?
This is also posted under Classical Physics. Double posting is frowned on in PF.

AM
 
Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

So here is the motional EMF formula. Now I understand the standard Faraday paradox that an axis symmetric field source (like a speaker motor ring magnet) has a magnetic field that is frame invariant under rotation around axis of symmetry. The field is static whether you rotate the magnet or not. So far so good. What puzzles me is this , there is a term average magnetic flux or "azimuthal mean" , this term describes the average magnetic field through the area swept by the rotating Faraday...
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