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VORTICLE REPULSION

 

Clicking on "next" from here you will find an example of two vorticles with like charges repelling one another. Here we see the nether being compressed more on the adjacent sides of the vorticles than on the other sides. This is similar to magnetism as it is based upon the same principle.

On the sides (actually there is no "side," but what else can I call it?) where they would otherwise meet, the nether is being compressed (straight lines of flow). On the other sides, the nether flows in with adequate expansion. Up to a point, the compressed nether will flow in with only a desire to expand and a consequent repelling between like vorticles. However, when the vorticles are close enough, the nether flow is impaired on the sides with compressed nether. The impairment of flow might be termed the repelling energy and, if it were possible to measure it, it would be measurable as a loss of mass.

 

THE WEAK FORCE

When the point is reached where mass is lost due to repulsion, we have what is called the "weak force." It is found only at very short distances between repelling vorticles.

 

THE NUCLEAR STRONG FORCE

The old "strong force," was known as that which binds vorticles in a nucleus. Now it is that which binds quarks within a proton or neutron as well. Essentially, it is the same as the binding force or binding energy mentioned previously. At this time, in my opinion, quarks are misunderstood. However, the binding energy can still work on what they actually are.

The other part of the strong force is caused when nucleons arrange themselves with reversed polarity. When this occurs, their mouths are in opposite directions and they behave much as if they were vorticles with unlike charges. They can come close to one another this way so that the attracting force is strong, but they can never become one, and they will not be attracted as strongly as would be the case with the binding force of unlike charges.

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