A few weeks back while cleaning out my book closet I came across that unfinished proof of the generalized theorem of Pythagoras that uses n-dimensional pyramids. (May be these are called simplexes and not pyramids, I still have to figure that out).
On the CERN stuff I can tell you I used a picture of CERN to explain a bit about super conductivity because at CERN they also run an experiment where they try to find magnetic monopoles…
It is now year number four where I constantly keep on telling that electrons are the long sought magnetic monopoles; electrons carry electrical charge, that is known in the scientific community, but they also carry two different magnetic charges.
As such electrons are much more like quarks that also carry electrical charge but also color charge, the fact that the electron carries only two magnetic charges is the main explanation as why we only have electron pairs. If the official version of physics were a true description of reality, so electrons are truly magnetic dipoles, why only have electron pairs???
Super conductivity is caused by electron pairs, not by free electrons. A material can only become in a super conductivity state if first the so called Cooper electron pairs are formed.
If the official version is true and electrons are magnetic dipoles, in that case any applied magnetic field would have zero point zero influence on the formation of electron pairs.
That is crystal clear because all forces on the north pole of the electron would be canceled out by the forces on the south pole of the electron. Yet in practice, as not only CERN but the entire community of super conductivity research is telling us: In the presence of a too high magnetic field the material just not enters the state of super conductivity…
So you can cool your ass off, if magnetic fields are too high electron pair formation just does not set in. The next picture from CERN shows a bit of state space as where in super conductivity materials should get their super conductivity properties:
Let me not put salt on every snail observed but the title should be ‘State space diagram of superconductors’ because ‘phase’ is related to 2D complex number stuff.
At last I would like to remark that although CERN is on a very expensive hunt for magnetic monopoles, they failed all of the time.
Now do CERN people talk about electrons being carriers of magnetic charge?
Come on; CERN people will fail all of the time.
On the other website we have reason number 45 as why electrons cannot be magnetic dipoles, as you have guessed it is about the above picture from CERN:
Reason 45: The critical magnetic threshold in super conductivity.
http://kinkytshirts.nl/rootdirectory/just_some_math/monopole_magnetic_stuff02.htm#15Feb2017
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After having said my views on fantastic organizations like CERN, why not do some elementary math like for example the 3D theorem of Pythagoras?
As memory serves the math ideas in the picture below were found centuries ago, but I have to say I do not know much historical development of the math ideas involved.
But I do know that I found a very simple proof to the most general theorem of Pythagoras and that is what will be in the next post and may one more extra post to finish it off.
Here is the teaser picture for the next post (or may be two posts on this subject of generalizing the theorem of Pythagoras):
The good thing about the last line of calculations is:
We need the millennia old 2D theorem of Pythagoras in order to prove the century old 3D theorem of Pythagoras…
I don’t know how far I will push this detail but if I find it back in my book closet may be I will write a tiny bit more. End of this post, see you around and try to get a nice life in case you never understood those electrons in the first place.
Till updates.