Quanta, Grand Universal Theory

U-PARTICLE PHYSICS General theory Chap 1

Since the dawn of time nature has hidden from man, the basic principle of how nature attracts and repels components of mater that form 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 Isaacs Newton's laws of motion " For every action there is a opposite and equal reaction." In 460 B.C.Democritus stated mater must be made of small particles atoms that have void with in them, and rocket themselves around in space. He named these particles atoms. However Democritus didn't explain how atoms rocket themselves around, and physics science theory moved off in other directions. Later in 1879 a Scottish physicist James Clerk Maxwell used the later-abandoned concept of the ether to explain that electromagnetic radiation did not involve action at a distance. He proposed that electromagnetic-radiation waves were carried by the ether and that magnetic lines of force were disturbances of the ether. Thomas Young early 1809 showed light travels as a wave with his offset slit light wave interference experiment. In 1880's another man Albert A. Michelson, did experiments trying to measure the speed of earth travels through the solar ether, found out no matter where he measured light from it was the same. Note that even in the space between stars and galaxies there are millions of space particles per cubic meter. In 1920 a German physicist Max Plank came up with quantum physics this Nobel Award wining idea was based on the idea that a dark body would collect particles to a limit and then eject them as fast as they are received. Werner Heisenberg 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. Heisenberg's particles had no mass and failed to explain how atoms rocket themselves in space. Neils Bohr proposed adding to the atomic model the new idea of quanta which was put forth by Max Plank in 1901. That way, electrons existed at set levels of energy, and at fixed distances from the nucleus. If the atom absorbed energy, the electron jumps to a level further from the nucleus, if it radiated energy, it fell to a level closer to the nucleus. Albert Eienstein, solves the argument of whether light is a particle or wave, by stating it is both a particle and a wave. Later in Japan. Hideki YUKAWA, Japanese scientist a 1949 Nobel Laureate, Yukawa added to Heisenberg theory by explaining that the particles atoms emit had mass but in calculating the necessary mass for such a particle. According to Yukawa's theory, the nuclear forces can be traced back to an exchange of mesons between the nucleons. These are continually emitting and absorbing mesons. This huge mass high energy particles bigger then electrons smaller then neutrons could not be duplicated with their present day atom smashers because of the tremendous energy necessary for the task. In 1947, Cecil Frank Powell and co-workers located what he believed to be Pion Bosons in cosmic rays. Each form had a slightly different mass, all decay in seconds, and all are composite particles made from quarks. All the scientist mentioned, believed particles and waves were absorbing and re-emitting particles some how making the universe work. Their theories involved one and two levels of particle states. In U-particle Physics there are four levels of particle states the ultimate particle (u-particle) that become atomic masses and holds them together , atomic masses that eject u-particles as quarks and then quarks that gang up into quanta that transfer information through the atomic medium. Today we are still looking for what gravity and light really is, the ground work has been laid, all is needed is the key to unlock the mystery of the atoms. When we use U-particle Physics we find out that each of the above scientist were correct in some way and had solved a piece of the puzzle, but were never able to fit the last part of the puzzle to gather, and form the big picture. Hopefully U-particle Physics will revile the big picture to it’s readers.

Like most inventors, as a hobby we studied the work done by Isaacs Newton, Max Plank, Neils Bohr, Maxwell, and many others. We are all looking for the truth of what gravity is. In our search there are some 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 . Then there is the gravity hole that every thing falls into, this involves the gods of the gravity fields, that mystically reach out and grab mater. The first hypothesis actually sounded more feasible, I pursued it first, but after time realized that orbiting objects and the earth surface acceleration did not work. The second hypotheses of atoms rocketing towards earth must be causing gravity. To find out what rockets atoms around we looked to light because it is a popular idea that photons fly out from inside atoms hitting other atoms. Scientist to prove the photon bullet point, came up with a photometer, a horizontal pin wheel with vertical triangular opposing black and white targets that spin in a vacuum, in a light bulb shaped glass container. The photons of light were suppose to strike the white surface, reflect off it and turn the pin wheel against the black surface which absorbed photons. The problem with the photometer was it worked backwards the pin wheel black target collected photons and turned against the white target. The reverse turning was explained away as poor containment vacuum allowing the heat from the black target to heat air inside the bulb and turn the pin wheel backwards. So here we see there is some thing different going on with light, then photons. Here it became apparent that if light was relayed from atom to atom like shot gun blasts, shot from small nuclear masses, Einstein's theory of relativity and many other phenomenons, 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 and electrons are stable . 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 Bohr, and Plank were right about particles shooting from atom to atom moving each other.

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. What could these particles be? If you take planks constant E=hf and allow the wave length to equal the distance light would travel in one second or a frequency of one cycle per sec you get 6.6 x 10-34 joule this is equal to 6.6x 10-34 newton meters and 6.6x10-34 watt seconds. So there appears to be a relation between gravity and the energy contained in a electron shifting orbits in a atom, of one energy cycle = 1 joule per newton meter. Max Plank, and Bore found out that the two electrons in the first orbit or shell are held at a distance of .0529 nano meters 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 giga, giga 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 meson 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 1,000,000 eV 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 the undiscovered particles were to cause the atomic mass to explode quarks from inside it self as quanta, each time sending the particles making up the quark out at the speed of light, a picture of how the atoms operate is becoming more clear. The universe operates in a mechanical manner. One should be able to visualize and explan the way things work mechanically with out mystical bending of space lines, and unexpressible fields of force grabbing things. This article will attempt to keep it real. For this article we will name these undiscovered particles the "Naytron".which is the, most primitive and “ultimate particle”. And the study of how these particles work in the universe I call “U-particle Physics” If atomic masses handle these particles according to a few basic universal rules, a surprising number of things can be explained.

U-particle Physics rules are as follows. ; First case; undiscovered particles "Naytrons" were produced at the creation of time, perhaps by the energies equal to the big bang. Naytrons can not be created or destroyed. Naytrons build up into and form stable atomic masses in specific numbers as protons, neutrons ,and electrons. Extra Quark ring like masses of naytrons are ejected from atomic masses , form quanta and travel through the atomic vacuum striking other atomic masses. Atomic masses collect naytrons from everything and everywhere. Naytrons carry information and the light speed inertia of the universe, striking atomic masses from all sides holding them and forging them together into basic atomic masses. Naytrons travel through the vacuum of space transferring inertia energy , and information, between the atoms. Naytrons collide with and collect on a atomic mass the excess naytrons are ejected at the speed of light, form into naytron particle like rings called quarks, atoms are made out of numbers of protons and neutrons all individually expelling quarks at the same time, a collection of quarks traveling in the same direction is called a quanta. Reaction to the gain or lose of naytrons are responsible for all movement in the universe , and time. Protons expel naytrons as quark mass out at the speed of light. These smoke ring like quarks, form into information waves of quanta that collide into near by atomic masses (neutrons, protons, and electrons of atoms). Naytron particles carry speed of light inertia energy to local atomic masses, to accumulate into new Quark masses on that atomic mass. The stable atomic mass will react to the new unstable number of quarks, by ejecting the extra naytrons as quarks at the rate of a old quark for every new quark formed. The re-emitted quark mater is expelled at light speed opposite in direction, to the greatest incoming naytron concentration, of newly received mater. This reactive movement in space rockets the atomic mass towards the greatest source of naytrons. Atoms exhibit a charging interval, the time it takes to collect a quark mass of naytrons. Atoms exhibit a discharge steering capability, after the atom collects it’s limit of naytrons it will eject the excess as quarks towards the greatest naytron source. So supplying a temporary artificial greater source would steer the atom to eject a large collected mass in a advantaged known direction. So a short high energy low mass pulse could control and steer the direction of the large collected mass of a atom . Second case; If naytrons fail to transfer light speed inertia and the speed of light momentum needed to produce stable atomic masses, the atomic masses structure and energy will be lost , losing their time. Third case; If naytrons fail to collide with mater imparting their speed of light momentum to form quarks, the atomic masses around them will decay, losing their time. Receiving, reacting, expelling, and reacting to quark naytron mass is responsible for all universal phenomenons. Or the condensed version; U-particles are neither created or destroyed. U-particles carry speed of light inertia energy through the vacuum of space between atomic masses. U-particles come from every where and everything in the universe and bombard atomic masses of u-particles from all sides which holds them together as basic atomic masses. When a greater source of u-particles react on a u-particle atomic mass, the atomic mass ejects at light speed the excess collected mass of u-particles as a ring like cloud, of one electron volt thrust , “quark”, in the opposite direction of the greater source of u-particles, this rockets the atomic mass toward the greater source of u-particles. When atomic masses form to gather as atom elements, and collectively eject their excess u-particle quarks, the ring shaped quarks travel together in a ring shaped mass, relayed atoms to atoms as a quanta disturbance. The relayed quanta copies carry the information of; number of pulses per second, the number of quark rings associated with the originating atom, the offset angles of the quanta ring to it’s direction of travel, u-particle quanta ring density, and the diameter of the quanta u-particle ring. Quanta waves react with objects and carry information through out the universe. Using this general rule I will try to show that 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 mass every 5.5x10-18 of a second. The 1eV naytron mass carry light speed inertia energy in side it's host quark, sending the one million 1MeV of naytrons making up the quark flying out into space forming something like a smoke ring traveling at 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 5.5x10<18 or 5.5 giga, giga cycles per sec 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 away 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 on all sides 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 atom naytron structure loss is known as the

normal passage of time or Entropy . 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 quanta 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 because it always contains extra naytrons pushed on it from the proton, and only emits quarks when it receives a excess of quarks over 986.6, 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 quark naytron smoke rings, it's quark build up re-emitting action rockets it back in till the out ward naytron flow builds up and 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, the positron 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 scatter their naytrons at light speed to form quarks on other electrons or atoms causing a disturbance of quarks to radiate heat energy in a flash of light. Molecule bonds 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 atomic particles of atoms are received over a greater distance. In this case the received naytron quark mater radiates out building on atoms and steering the quark out put of the surrounding atoms away from the other naytron sources effecting the mass. This in turn causes these atoms to rocket towards the greater steering naytron 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.

Overview; so all mater and all space contain naytrons which form into atomic masses like protons, neutrons, and electron. These atomic masses are held together by the light speed naytrons continuously bombarding them from all sides impacting their light speed inertia to them. At some point in time the atomic masses can no longer contain the overload of inertia and eject the excess of naytrons as light speed smoke ring like quarks from the least bombarded

part of the atomic mass. The light speed ejected quarks react on the atomic mass by rocketing the mass towards the greatest source of incoming naytrons . The ejected quarks move together with other quarks from other local atomic masses to form smoke ring like quanta wave fronts that move through the vacuum of space between atoms relaying the disturbance atom to atom. We comprehend these quanta disturbances as electro magnetic force EMF, which is heat, light, and gravity to name a few. The picture below is a actual picture of the naytron, quark, quanta rings. This is a holographic film that when laser light is refracted through it reviles a three dimensional picture of a room with a chess board and chess playing pieces in it. In physics this is referred to as a interference pattern of unknown function, in u-particle physics it is a picture of the light wave quanta ring disturbances, that carry heat information through a atomic medium to the eyes of a observer. To sum it up our scientist in their experiments were right they just didn’t realize they were working in the wrong dimension. Test results when examined from the atomic dimension point of view, give their experiments different results. Democritus from the beginning said atoms have void in them we now know the atom is full of space and smaller particles. James Clerk Maxwell believed in the ether and showed mathematical prof that waves move through the ether, it would now seen he was right the ether being the atoms thought out space. Thomas Youngshowed light can travel through offset slits and appear to travel as waves through the ether. Albert A. Michelsonmeasuring speed of the planet through the ether, his experiment was misinterpreted, The speed of light was always the same between atomic masses, the speed of light is determined by the density of atoms in the medium it is passing

through, and the number of relays by those masses, then the only place he could measure a different speed of light would be the event horizon which is the place where the light quanta from a moving source is relayed from the last atom of the moving source through the atomic vacuum at the speed of light plus the moving source speed till it strikes a local stationary atom which relays the disturbance on relative to the local atom, at a higher frequency, because the local atom was hit more times from the faster then light received frequency. If viewed from U-particle Physics this is a proof of the ether of atoms. Max Plank just did not realize there were smaller ultimate particles that form quarks that every electron of a atom eject into a mass of quarks that travel from atom to atom as quanta information. Another interesting ocurrence with Planks constant, is when the frequency is one cycle per second the” h” energy can equal joules, watt seconds, or newton meters, which seems to join gravity, electric, and atomic shell energy as one. Neils Bohr discovered electrons changing obits, emit light. The electrons were changing orbit in response to the increase in U-particles they received and used to eject, which rocketed them to a new obit, emitting light. Albert Eienstein misinterpreted Mickelson,s light experiment and concluded there was no ether, and predicted time, and length of objects changed, because the speed of light was unchangeable. In u-particle physics this all happens in the vacuum between atoms not in the ether medium of atoms, light travels as u-particle quanta at a unchangeable light speed between glass rod atoms but because there are so many relays glass compared to air, the light is slower through glass then through air. In U-particle physics a object can go faster then the speed of light. Eienstein said light travels as particles and waves, in u-particle physics, light disturbances travel as u-particles through the vacuum between atoms and as a quanta disturbance waves through the ether atom medium.