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This writing is lined up so when you read it you look East, and all the description you will read about magnetic current, it will be just as good for your electricity. Following is the result of my two years experiment with magnets at Rock Gate, seventeen miles Southwest from Miami, Florida. First I will describe what a magnet is.
You have seen straight bar magnets, U shape magnets, sphere or ball magnets and Alnico magnets in many shapes, and usually a hole in the middle. In all magnets one end of the metal is North Pole and the other South Pole, and those which have no end one side is North Pole and the other South Pole. Now about the sphere magnet. If you have a strong magnet you can change the poles in the sphere in any side you want or take the poles out so the sphere will not be a magnet any more.
From this you can see edwadr the magnet can be shifted and concentrated and also you can see that the metal is not the real magnet. The real magnet is the substance that is circulating in the metal. Each particle in the substance is an individual magnet by itself, and both North and South Pole individual magnets.
They are so small that they can pass through anything. In fact they can pass through metal easier than through the air. They are in constant motion, they are running one kind of magnets against the other kind, and if guided in the right channels they possess perpetual power.
The North and South Pole magnets they are cosmic force, they hold together this earth and everything on it. Each North and South Pole magnet is magnetjc in strength, but the strength of each individual magnet doesn’t amount to anything.
Ed Leedskalnin – Magnetic Current (Illustrated PDF version) — Magnetic Universe
To be of practical use they will have to be in great numbers. In permanent magnets they are circulating in the metal in great numbers, and they circulate in the following way: Each kind of the magnets are coming out of their own end of the pole and are running around, and are running in the other end of the pole and back to its own end, and then over and over again.
All the individual magnets do not run around. Some run away and never come back, but new ones take their place. The earth itself is a great big magnet. In general these North and South Pole individual magnets are circulating in the same way as in the permanent magnet metal. The North Pole individual. Then both North and South Pole individual magnets start to run over and over again.
In a permanent magnet bar between the poles there is a semi-neutral part where there is not much going in or out, but on the earth there is no place where the magnets are not going in or out, but the magnets are running in and out at pole ends more than at the Equator.
Now you get the equipment and I will tell you so you can see for yourself that it is in the way I have told. Get a permanent magnet bar four inches long. A U shape magnet that is strong enough to lift from ten to twenty pounds. An Alnico magnet about three inches long, two and one-half inches wide, one-inch thick.
Hole in the middle and poles in each end, several feet in length of hard steel fishing line. Line when it is not in coil it stays straight and a soft steel welding rod one-eighth of an inch thick and three feet long. From the fishing wire and the welding rod you will make magnets or compasses, and if you hang them up in fine threads by middle and keep them there they will be permanent magnets.
When you are making a magnet pole in the welding rod use U shape magnet. You can drag the magnet over the rod from end to end, but never stop in middle. If you stop in middle there will be an extra pole so it will disturb the magnet’s circulation. Use iron filings to test the rod if there is any magnets in the middle, and if there is the filings will cling to it.
Then drag the permanent magnet over the rod and it will take it out. To take the magnet out from rod ends approach or touch the rod end with the same kind of magnet that is in the rod, by dipping the rod ends in iron filings, you will see how it works.
Break three pieces of the steel fishing line just long enough to go in between the two poles of U shape permanent magnet. Put them endwise between the two poles, and take them out. Hang one by middle with fine thread, and hang it up in East side of the room where there is no other magnet or metal around. Now you will have a permanent magnet or compass to test the polarity in other magnets.
For more delicate use hang the magnet in spider web.
To test the strength of a magnet use iron filings. Put the U shape permanent magnet two feet West from the hanging magnet. Hold the North Pole magnet in level with the hanging magnet, then you will see that the South pole of the hanging magnet is turning to you and the North Pole magnet away.
Now put the South Pole permanent magnet pole in the same level, this time North Pole magnet will turn leefskalnin you and Leedskkalnin Pole magnet away from you.
This experiment shows two things, one that the magnets magneyic be sent out in straight streams, and the other whatever kind of magnets you are sending out the other kind of magnets are coming back to you. Take two pieces of steel fishing line wire, lfedskalnin them in U shape magnet, hold a little while, take them out, bend a little back in one end and hang them up, and make it so that one magnet’s lower end is North Pole magnet and the other South Pole magnet – Make it so that they hang three inches apart.
Raise slowly up to the two hanging magnets, then you will see that the hanging magnets are closing up. This time when bar magnet approaches the hanging magnets will spread out. This experiment shows that North and South Pole magnets are equal in strength and that the streams of individual magnets are running one kind of magnets against the other kind. Cut a strip of a tin can about two inches wide and a foot long.
Put the North Pole of the U shape magnet on top of the strip, and dip the lower end in iron filings, and see how much it lifts. Now put the South Pole on top and see how much it lifts. Change several times, then you will see that the North Pole lifts more than the South Pole Now put the North Pole magnet under the iron filing box, and see how much it pushes up.
Do this several times, then you will see that the South Pole magnet pushes up more than North Pole magnet. This experiment shows again that on level ground the magnets are in equal strength. Now take the three-foot long soft steel welding rod. It is already magnetized as a permanent magnet.
Now measure each and you will see that the South end is longer. In my location at Rock Gate, between Twenty-fifth and Twenty-sixth Latitude and Eightieth and Eighty- first Longitude West, in three-foot long magnet the South Pole end is about a sixteenth of an inch longer. Farther North it should be longer yet, but at Equator both ends of the magnet should be equal in length.
In earth’s South hemisphere the North Leedskalninn end currnet magnet should be longer.
: MAGNETIC CURRENT RESEARCH
All my hanging magnets or compasses they never point to the earth’s magnetic pole, neither to the geographical pole. They point a little Northeast. The only reason I can figure out why they point in that way is, looking from the same geographical meridian. In rough estimation the earth’s South magnetic pole is two hundred and sixty currenf West from currenr same edwafd the earth’s North magnetic pole is on.
That causes the North and South Pole magnets to run in Northeast and Southwest direction My location is too far away from the magnetic poles so all my magnets are guided by the general stream of individual North and South Pole magnets that are passing by. Now I will tell you what magnetic current is.
Magnetic current is the same as electric current is a wrong expression. Really it is not one current, they are two currents, one current is composed of North Pole individual magnets in concentrated streams and the other is composed of South Pole individual magnets in concentrated streams, and they are running one stream against currrent other stream in whirling, screwlike fashion, and with high speed.
One current alone if it be North Pole magnet current or South Pole magnet current it cannot run alone. To run one current will have to run against the other. Now I will tell you ewdard the currents are running when they come out of a car battery, and what they can do.
Ed Leedskalnin – Magnetic Current (Illustrated PDF version)
Now get the equipment. First put a wooden box on floor, open side up, cut two notches in middle so you can put a one-eighth of an inch thick and eighteen-inch long copper wire across the box. Put the wire one end East, the other West. Stay yourself West, put car battery South side of the box positive terminal East, negative terminal West, get two flexible leads and four clips to fit the battery and the bare copper wire, connect the East end of the copper wire with positive terminal, clip the West end of the copper wire with the West side flexible lead, leave the connection with negative terminal open.
Break two pieces of the steel fishing line one inch long, put each piece by middle across the copper wire, one on top of the copper wire and the other under, hold with your fingers, now touch the negative terminal with the loose clip, hold until the copper wire gets hot. Take them off, now you have two magnets, hang them up by middle in fine thread. The upper magnet will hang the way it is now, but the one below will turn around.
Break five inches long piece of the fishing line, put the middle of the wire across and on top of the copper wire, touch the battery, hold until the copper wire gets hot, dip the middle of the wire in iron filings, then you will see how long a magnet can be made with this equipment.
Break or cut several pieces of the hard steel fishing wire as long as to go evward the poles of the U shape magnet, now hold leeskalnin pieces of the steel wire ends up and down, one wire South. Hold tight and touch the battery, hold until the copper wire gets hot, now hang them up by upper end just above the copper wire, touch battery, the South mangetic magnet will swing South, and the North side magnet will swing North.
Put two pieces on top of the copper wire, the ends just a little over the copper wire. Those ends lying on copper wire, one pointing South and the other North, hold tight, touch battery, hold until the copper wire gets hot. Put one wire on top of the copper wire pointing South, other below pointing North.
Magnetize, hang up by tail ends on the copper wire, touch battery they both will swing South. Put one wire on top of the copper wire pointing North, the other below pointing South, magnetize, hang up by tail end above the copper wire, touch the battery, both magnets will swing North. Cut six pieces of fishing wire one inch long, put them by middle on top and across the copper wire.
Hold tight, touch battery, hold until copper wire gets hot. Take off, now put glass over the copper wire, put those six pieces of magnets on glass, on top of the copper wire lengthwise just so the ends don’t touch each other, touch the battery, they all will turn across the copper wire, now pull three to South side and three to North side in the same way, they lie now leedxkalnin about one-half of an inch away from the copper wire, touch battery, they all will jump on the copper wire.
Now roll all six together, let loose, and you will see that they won’t stay together. Magnetize one piece in U shape magnet, put North Pole end Magnefic on the copper wire, and South Pole West, touch the battery, the magnet will swing left. Take one piece of hard steel fishing wire, dip in iron filings and see there is no magnet in it.
This time hold the wire up, and down, the lower end on middle of the copper wire, hold tight. Touch the battery, hold until the copper wire gets hot. Dip the wire in iron filings and you will see that it is no magnet.