![]() A drilled hole or a angle cut or curve but a closed loop, I had to give up and get on with my life as my cat did because it was pulling me into a new field of negative energy and the world's scientists are still working with a black hole theory now. Square holes and round pegs, so it seems size really does matter. It seems that even shape is a factor and that is really out there but that is my spot(left field). ![]() I know that sounds nuts but this is the only way I know to tell you how strange my testing has left me out in left field! It appears that the stainless needs only a common factor to a magnet or vice-versa. Also, if the magnet is married to a similar piece of stainless, or even holding hands or just touching one finger to let the other stainless know that it's friendly. ![]() I'm at no level of smarts to state facts, butĪccording to my findings, it has more to do with the wave of the magnet because of the holes in its net. Science is when we use our God given talents to discover what we don't know yet! There is always a answer because of the question. If two circles in a bowl of milk are attracted, what if one is only an arch or both or different colors? If anyone finds this to work like I did, don't forget where you heard how this works. Its a wild world we live in today! Yes, no, maybe and sometimes!Īfter rereading my post and seeing the difference, try reconstructing your magnet to all the reverse factors in any respect possible to the stainless. When heated, stainless steel releases an energy beam that magnets can lock on to or match in mid air holding each other at bay. ![]() Why would a refrigerator magnet 'bleach' the stainless finish after a few minutes and then have the color return? So basically, yes, or no, does "non-magnetic" mean that a strong permanent magnet won't stick to it, or not? I can't seem to find a definitive answer to this question. Does magnetic mean that it's a magnet itself, or that it is not a magnet itself and cannot be "magnetized," but still sticks to a magnet?īefore you say this sounds stupid, consider that all crystalline metals are capable of being used as electromagnets, and display magneto-inductive properties. This is the fourth article of this type I've read looking for a specific answer, but they all use the terms "magnetic" and "ferromagnetic" without revealing the ramifications of what exactly they mean. ![]()
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