Quanta Grand Universal Theory
Sense the dawn of time nature has hid from man the basic principle of how nature attracts and repels components of mater, forming atoms, elements, molecules, compounds, plants, suns, galaxies, and the universe. Historic and modern scientist are still looking for the one statement that explains all the galactic phenomena we experience from day to day. Knowing this principle well enable man to step out into the universe and manipulate mater to his will with unlimited power at his command. Hopefully this knowledge will be used wisely to solve problems of war and famine. The following is a general discussion of how atoms, light, magnets, and the universe move, repel, and attract mater over distance in space. We will be using as a base Newton's third law of motion " For every action there is a opposite and equal reaction."
In 400 B.C. Democities stated mater must be made of small particles that rocket themselves around in space. He called these particles atoms. Democratis didn't however explain how atoms rocket themselves around and science theory moved off in other directions. In the early 1900's another man Hisenberge again stepped forward with the virtual atom theory where particles of mater emitted form one atom collide with locale atoms, holding them apart, and rocket them around in space. Hisengburg's particles had no mass and failed to explain how atoms rocket themselves in space. Later in 1900's a Japanese scientist yakawa added to hisengburgs theory by explaining that the particles atoms emit had mass but in calculating the necessary mass for such a particle. He predicted a huge mass particle called the bosons that travel a short distance knocking atom nucleus about imparting from on atom to another on collision. This huge mass high energy particles could not be duplicated with our present day atom smashers because of the tremendous energy necessary for the task. Although C.E.R.N. labs in 1983 believed they caught a glimpse of one. Today we are still looking for what rockets atoms around in space.
Like most inventors, as a hobby we studied the work done by Newton, Henery, Maxwell, and many others. We are all looking for the truth of what gravity is. It lead to the two possible explanations of gravity. One is in dropping a pencil the earth and the universe is expanding at a acceleration. The pencil stops being pulled along by your arm and the earth expands out running into it. Or two, all atoms in your arm and the pencil rocket them selves towards the earth all the time. The first sounded more feasible, I pursued it first, but after two years realized that orbiting and earth surface acceleration did not work. The second rocketing idea must be causing gravity. To find out what rockets atoms around we looked to light because photons fly out from inside atoms hitting other atoms. Here it became apparent that if light was relayed from atom to atom like shot gun blasts of small nuclear particles, Instines theory of relativity could be easy to explain. But for atoms to rocket around they need a power source or fuel. We would have to take a close look at how atoms are put together. Most scientist except that all atoms continually decay to energy. That protons are largely responsible for this loss of mater and energy, neutrons are not stable but electrons are. Atoms are made of smaller particles called quarks. Electrons are present in shells at defined distances from the atoms nucleolus. The first shell only holds two electrons all others hold eight electrons. From this if Yakawa was right about particles shooting from atom to atom moving each other, what could these particles be?
Consider that these particles would have to hold the electrons in the first orbit away from the protons in the atoms nucleus, they would have to be small enough to hit a electron and not destroy it and leaving it in place. If this is to work then every time the electron moves toward the protons a particle must be there to bump it back out. Bore found out that the two electrons in the first orbit or shell are held at a distance of .529 angstroms from the atoms nucleus. From this distance we can get a wave length and covert it into a frequency that will hold the electron at this distance in orbit. That frequency works out to be 5.5x10<18 or 5.5 gega gega cycles per sec. This large number of particle pulses compare to the frequency of cosmic rays or back ground radiation from space. Yakawa was looking for one large particle to hit atoms and hold them apart. What if there was a large number of small particles moving together whose combined force was large enough to move atoms. Also if these particles represented light wave disturbances in space it would have to originate from some thing in the proton, neutron, and electrons. The particles would have to travel in clouds by the millions in order to hit anything atomic. It turns out that protons, neutrons ,and elections are believed to be made up of smaller particles called quarks. Quarks the most common the up quark has a atomic weight of 1 MeV, (one million volts). The proton has a atomic weight of 938.3 MeV the neutrons atomic weight is 939.6 MeV, and the electron has a atomic weight of .538 MeV. There clearly aren't enough quarks in atoms to account for the yakawa's boson particle cloud. But if there was still a undiscovered particle with the mass of 1eV (one electron volt) then a exploding quark would have a 999,000 undiscovered particle cloud flying out to collide with other atoms and moving them. This undiscovered particle cloud would have fragments small enough to have a effect on electrons. If one of the undiscovered particles was to explode from inside a quark, each time sending the remaining particles making up the quark out at the speed of light a picture of how the atoms operate become more clear. For this article we will name these undiscovered particles the "Naytron". If atomic material handle these particles according to one universal rule, a surprising number of thing can be explain. this rule is as follows. ; First case; undiscovered particles "Naytrons" produced only in black holes or at creation perhaps by the energies equal to the big bang, can be stable in specific numbers as quark masses. Naytron's decay (explode, lose time) at a natural universal rate in quarks that make up protons and antimatter, reaction to this naytron lose is responsible for all universal movement, and time. Protons expel quark fragment mass (naytrons), out at the speed of light. These smoke ring like fragment bundles collide into near by atomic particles (neutrons, protons, and electrons of atoms). Speed of light local Quark fragments, accumulate into new Quark masses on collision with a atomic particle. The stable particle will react to the new unstable number of quarks, by movement in space and by annihilation of a naytron in a old quark for every new quark formed. The re-emitted quark mater is expelled at light speed opposite in direction, to the highest incoming concentration, of newly received quark mater, as is the reactive movement in space of the particle. Second case; If naytrons fail to gain the speed of light momentum needed to produce stable quarks, they will go to energy, losing their time. Third case; If naytrons fail to collide with mater imparting their speed of light momentum to form quarks they will decay to energy giving up their time. Receiving, reacting, expelling, and reacting to quark fragment mass is responsible for all universal phenomenons. Using this general rule I will try to show that inner atomic forces, light transmission, gravity, magnetism, and universal phenomena can be explained
Atomic structure; There are three forces that hold the universe together they are the strong nuclear force, the weak nuclear force and gravity. The strong nuclear force is what holds the protons, neutrons, and atomic nuclear together. Using the undiscovered particle or naytron idea to explain this force, picture the proton as continually trying to decay, by exploding a naytron every 1/10x18 of a second,. the 1eV naytron mass turns to energy in side it's host quark, sending the remaining 999,000 eV of naytrons making up the quark flying out into space forming something like a smoke ring traveling at slightly faster then light speeds. The reaction to the jettisoned quark material causes the remaining 982.3 quarks left in the proton to move slightly in the opposite direction. Sense the proton is jettisoning 5.5 giga, giga quarks per second the propelling mass if aimed in the same direction would be around 5x10+18 MeV per second per proton of the atom. This represents a respectable force to say the least. about 400 foot pound per second per proton. At this point you might ask were the proton could get all these quarks to explode since there are only 983.3 to start with. the answer lies in the fact that each proton of each atom is part of a entire universe of decaying protons, and is constantly being bombarded by naytrons from other atoms which are bombarded by other atoms, this goes on from the beginning to the ending of the universe. The overall naytron loss is known as the normal passage of time or Entropy . After every fraction of a second the universe has less mass then it did before this is why time only moves forward and there can be no perpetual motion. If the proton losses a quark and gains a quark, then time is as we know it. Moving a proton and atom will change how it receives and emits quarks as naytron clouds or boson form, in relation to all other atoms. The protons of a atom in receiving and emitting quarks will equalize, repeating emissions to their surrounding and resist change in motion, this resistance to motion change is inertia. The proton carries a positive charge of quarks always emitting them the neutron is larger then a proton 986.6 MeV and only emits quarks when it receives a excess of them over 986, so when the proton and neutron are in contact with each other half the protons output is channeled through the neutron this causes them to rocket toward each other like two rockets head to head, the neutron using the positive emitted naytrons of the proton, to re-emit gained quarks in the apposite direction, the neutron is then as a negative charge splitting the nuclear strong contact force with the proton . It would take light speeds to get a proton to push through the outward flow of naytron bursts from a atoms nucleus but once the proton collides with the nucleus of the atom, the protons out put turns away from the nucleus and rocket it unmovable towards the nucleus of the atom. The nuclear weak force is what holds electrons to atoms and atoms to other atom as molecules. This force is the result of the nuclear strong force over a distance. The electrons get trapped in the flow intersections of three crossing naytron quark clouds. There is enough light speed naytron particle density there, to cause the formation of quarks on a electron when re-emitted by the electron can hold the electron against the out ward flow of the atom. If the electron drifts out of the intersecting three naytron smoke rings it's quark build up re-emitting action rockets it back in till the flow build up pushes it back. We say the electron has a negative charge because the electron uses the output of the proton to hold itself in orbit around the atoms nucleus. A positron is just a electron that has been saturated with too many received quarks and instead of only re-emitting quark naytrons begins to act like protons by continuously emitting naytron quarks. Being on the fringe of the atom a electron that gets hit by the naytron output of the positron will direct it's re-emitted naytrons away from the positron and will rocket too the positron. The positron out put flow will not be sufficient to deflect the electrons incoming momentum. They collide and shatter their naytrons quarks not having sufficient speed to form quarks on other electrons or atoms go to energy in a flash of light. Molecules are formed when a electron is not present in a outer shell to relay naytron quark flow this allows the electron from another atom to move in filling the low pressure area the atoms rocket toward each other joining the atoms as molecules. Gravity is the same naytron emissions from the protons of atoms received over a greater distance. In this case the received naytron quark mater radiates out building on atoms and steering the out put of the surrounding atoms away from the greatest naytron flow source or mass. This in turn causes these atoms to rocket towards the steering mass. this is a unique case because this is only a attracting force with no opposite force like the strong and weak nuclear forces. So this like gravity would attack all matter to all other mater.