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Unified or The Operation of Spirals It's all in the spin. Each spiral forms a plane of spin which amounts to an equator, orbital plane or ecliptic plane. By the same token, each spiral's spin defines its own axis, perpendicular to that plane of spin. These are spiral features even if the spiral exists only in two-dimensions, like as a flat circle. However they become more important when a spiral extends into three-dimensions. Imagine a circle of cardboard with a stick through the middle. Now imagine a spiral line swirling away from the top of the stick, down and around, gradually expanding until is large enough to take a turn along the edge of the cardboard circle. Then, the spiral continues on as it narrows again to meet the bottom of the stick. But, it's not finished. The circuit must be completed. So, the line shoots up along the axis, ie, to the top of the stick, and begins again. This imaginary line is actually straight. You can perhaps see that if you tried to draw a straight line from the center of that circle to the outer edge while it was spinning, you'd end up with a curved line. This is how spiral energy works. The 'straight line' is curved by the spin. So now there is a paradox: Does the spin create the curved line with magnetism pulling on one side and gravitation pushing on the other? OR does the push-pull create the spiral which forces the spin? Does it matter? Once it was set in motion the very first time, it may no longer be possible to tell which came first, for they are now fully integral to each other. To complete this picture of how spiral energy flows, realize that any line moves in two directions simultaneously. It just depends on which way you follow it. Energy does this as well. Back to our circle with the stick through it... While the spiral is curling downward from the top of the stick to the bottom and back up the axis, it is also simultaneously moving down the axis, then spiraling upward to the top. Again, 'direction' depends entirely on how you choose to look at it. From the top of the stick and circle contraption, the spiral may appear to be spinning counterclockwise. But if you look from underneath, the spiral will appear to be turning clockwise. And yet, you know it is the same stick, the same circle, the same spiral line. Interestingly enough, the direction in which you spin the circle does not change the clockwise or counterclockwise direction of the spiral line. If you spin the circle counterclockwise, the inside of the curve leads the way. If you spin it clockwise, the outside of the curve leads the way. However, it's still the same curve and it still arcs out from the center counterclockwise. Now, how do we actually turn this into a Unified Theory of Force? Gravitation we have covered. It is not 'gravity' to be worked in as a constant among other relativities. It is the resultant between gravitation and magentism and has a rather narrow application in the context of the Universe. But, we have indeed tied gravitation to magnetism. Electromagnetism only recently became electromagnetism. Prior to that it was electricity and magnetism taken as separate forces. However, since we have realized that one can generate the other and visa versa, then we consider them one force. This is precisely the way in which magnetism and gravitation fold together. However, electricity is just a bit misunderstood. Electricity is the product the gravitation and magnetism tug of war. Electricity is the product of the competition between the two in their race of Action/Reaction. Electricity is the current of force flowing along that straight line which ends up curled into a spiral, and in truth that current should be more broadly defined, but that's covered in the Matter discussion. Weak and Strong are also resultants of force interactions, not forces themselves. If we understood the essence of energy behavior better, then we'd see that sometimes the change is negligible and other times it is exponentially astounding. I believe the separations into different kinds of force are entirely due to misconceptions of the one force. That is particularly true of Weak and Strong. We plugged these two in to explain forces previously unexplainable, but with the merger of magnetism with a proper concept of gravitation, then weak and strong just describe the tug-of-war. Next in Sequence Select From Menu |
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