The Forces of Nature by Kelland Terry, Ph.D.
When the electron reaches its most condensed stage, the internal pressure reaches a critical state, which causes it to eject virtual particles into space. The virtual particles are ejected through portals, and the size of the portal helps to determine the size of the virtual particle. I envision there are billions of portals for e-electons and every portal creates one string with each round. In the same manner, there are separate distinct portals for p-electons, n-magnons, s-magnons, and gravitons.
At the completion of a round, the strings that blanket the electron once more apply pressure to the surface of the electron as they continue to retract back through their portals. This eventually forces another round of strings to be ejected into space. This means that during any one string cycle every portal fires numerous times; perhaps in the neighborhood of 100 times each.
A point in time is reached when retracting strings are no longer applying pressure on the outside of the electron, and the number of strings emitted by an electron has reached maximum. At this point, the newly created elastic strings have bonded to each other and begin a new string cycle. This works because the electron and the strings have perfect elasticity. Kelland—www.vestheory.com
Showing posts with label electron string cycle. Show all posts
Showing posts with label electron string cycle. Show all posts
Wednesday, November 2, 2011
Monday, October 31, 2011
Graviton divides electron into two spheres
The Forces of Nature by Kelland Terry, Ph.D.
The virtual graviton particle is ejected some 10 to 20 million meters in space as discussed in a previous blog. The evidence presented suggests this string exists for a second or so, which allows it to travel this great distance and return at nearly the same velocity as a magnon.
My model suggests the virtual particle that is to become a graviton is ejected from an area between the two spheres of the electron. The electron is spinning rapidly, and I envision that the graviton becomes wrapped between the two spheres of the electron in the same manner as a fishing line on a reel. As the graviton retracts, it creates great pressure on the center of the electron, which effectively divides the electron into two spheres.
Because the graviton exists through many string cycles, the electron continually exists as two spheres. This preserves the n-goo in one sphere and s-goo in the other sphere. I will come back to the composition of the graviton in a future blog, but first I will continue to define the electron string cycle. Kelland—www.vestheory.com
The virtual graviton particle is ejected some 10 to 20 million meters in space as discussed in a previous blog. The evidence presented suggests this string exists for a second or so, which allows it to travel this great distance and return at nearly the same velocity as a magnon.
My model suggests the virtual particle that is to become a graviton is ejected from an area between the two spheres of the electron. The electron is spinning rapidly, and I envision that the graviton becomes wrapped between the two spheres of the electron in the same manner as a fishing line on a reel. As the graviton retracts, it creates great pressure on the center of the electron, which effectively divides the electron into two spheres.
Because the graviton exists through many string cycles, the electron continually exists as two spheres. This preserves the n-goo in one sphere and s-goo in the other sphere. I will come back to the composition of the graviton in a future blog, but first I will continue to define the electron string cycle. Kelland—www.vestheory.com
Sunday, October 30, 2011
Electron string cycle cont’d
The Forces of Nature by Kelland Terry, Ph.D.
We saw in the previous blog that the electron’s n-magnons bond to the electron’s s-magnons, and then retract against the surface of the electron. As they retract, they create great internal pressure inside the electron’s two spheres. The strings that make up the electric fields contribute in a similar way.
The electron makes e-electons that give the electron its negative charge and allows it to bond to the p-electons emanating from the proton. Recently, scientists have also shown there are virtual particles surrounding the electron that are composed of both negative and positive particles bonded together. I believe the electron is making an excess number of e-electons that bond to the p-electons that also arise from the electron.
It may well be that the electron makes 2 units of e-electons and one unit of p-electons, and that one sphere of the electron creates e-electons and the other sphere p-electons, just as one sphere makes n-magnons and the other sphere makes s-magnons. It follows that one unit of e-electons becomes bound to the one unit of p-electons leaving one unit of free e-electons or one unit of charge. This unit bonds with the p-electons emanating from the proton (actually from the quarks inside the proton).
When the electron’s e-electons emanating from one sphere come in contact with an equal number of p-electons emanating from the other sphere, they bond and retract. There must be billions of these strings that bond and cover the electron like an orange peal as they retract back inside the electron. This causes great internal pressure inside the two spheres of the electron. Gravitons also have a key role to play as discussed in the next blog. Kelland—www.vestheory.com
We saw in the previous blog that the electron’s n-magnons bond to the electron’s s-magnons, and then retract against the surface of the electron. As they retract, they create great internal pressure inside the electron’s two spheres. The strings that make up the electric fields contribute in a similar way.
The electron makes e-electons that give the electron its negative charge and allows it to bond to the p-electons emanating from the proton. Recently, scientists have also shown there are virtual particles surrounding the electron that are composed of both negative and positive particles bonded together. I believe the electron is making an excess number of e-electons that bond to the p-electons that also arise from the electron.
It may well be that the electron makes 2 units of e-electons and one unit of p-electons, and that one sphere of the electron creates e-electons and the other sphere p-electons, just as one sphere makes n-magnons and the other sphere makes s-magnons. It follows that one unit of e-electons becomes bound to the one unit of p-electons leaving one unit of free e-electons or one unit of charge. This unit bonds with the p-electons emanating from the proton (actually from the quarks inside the proton).
When the electron’s e-electons emanating from one sphere come in contact with an equal number of p-electons emanating from the other sphere, they bond and retract. There must be billions of these strings that bond and cover the electron like an orange peal as they retract back inside the electron. This causes great internal pressure inside the two spheres of the electron. Gravitons also have a key role to play as discussed in the next blog. Kelland—www.vestheory.com
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