11-06-2012, 05:17 PM
(This post was last modified: 11-06-2012, 05:21 PM by Tenet Nosce.)
(11-06-2012, 01:15 PM)Pickle Wrote: The word ION is pretty self explanatory. Might look at the suffix added to words and ask why it is added? No point in running circles.
Oh, you are talking about ionic polarization? Well that at least makes more sense now!
But Ra wasn't talking about ionic polarization. They were talking about magnetic polarization. That's two different things.
Ionic polarization is due to the separation of charges in a crystal. In the body ionic polarization occurs among the macrominerals described above (Na+, K+, Ca2+, Mg2+, Cl-, S2-, P3-)
Magnetic polarization is due to the alignment of molecules in a ferromagnetic material. Most of these are the microminerals in the fourth row (period) like iron, nickel, and cobalt.
Two different things. Since crystals are your area of expertise, I can see how you might conflate the two. But in the material, Ra is using magnetic polarization as the model. Different principles.
Quote:Part of my purpose is the creation of vortexes. Possibly where the argument stems from is your perception of what "direction" does what. In specifics of invoking or dispersing, creating vortexes, using your view I would be creating portals to pull up energy from the lower astral.
Oh, I don't know too much about how vortexes work. Which is why I said I was assigning the directions arbitrarily. Plus it depends on perception. A spiral which appears to move clockwise from the front, looks like it it rotating counterclockwise from behind.
Good thing I'm not meddling in making portals and accidentally pulling in energy that I can't control.
Anyway, look here at this page from a company that manufactures magnets. It will explain some things about magnetic polarization.
http://www.mceproducts.com/knowledge-bas...l.asp?id=9
Quote:If your parts are symmetrical such that the polarity does not matter, then of course it is not necessary to indicate the polarity...
Do not confuse "orientation" with "polarity". The orientation only gives the preferred magnetization axis, while polarity tells which pole will be at a specific location.