Map of the world after pole shift12/17/2023 A good example is the equitorial region obviously, but not so for the north of the United Kingdom on the temp it shows it warmer than the arctic and on the magnetic map it shows in this regions magnetic field strength to be weaker. We are working on why the southern hemisphere is different, in that the lower right on the magnetic map shows a larger flaring, but although the temperature map clearly shows this region being cooler than on the left side it does not flare up like the magnetic map flares up to the equator, nevertheless we can denote from comparing the both maps that it is by no coincidence they are linked, as experiments were conducted with magnetic bearing material that were subjected to heat, it was found when the magnetic material was heated it lost its ability to hold magnetism, the conclusion drawn from this experiment was that where warming took place the magnetism decreased, and when subjected to cooling it held its magnetism, now when we apply this knowledge to temperature maps we see that the coolest regions of the earth are the regions where the strongest magnetism is, of course we are talking of where the earths magnetic poles are in arctic and antarctic regions, so to confirm this we should see very little magnetism in the warmer regions or none at all, and looking at the magnetic map above we see this is the case when compared to the temperature map. You will note that the coldest regions are by no coincidence in the same regions of strongest magnetic fields. At a quick glance you will see the simularities in both the magnetic and the temperature maps over the northern hemisphere.
0 Comments
Leave a Reply.AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |