(C) 2009, Symmecon Grand Unified Theory Mktg. Inc.
A Magnetic Matrixon
The h-bar Magnetic Energy Particle
Grand Unified Theory by CRQT Spacetime Function Network:
http://www.symmecon.com/ .
Grand unified particle physics presents a set of waveparticle topologies solved by integration of mass and time transform functions into the quantized waveform equations.
- e = h (nhu)
- Lamda = h/m(v)
- Photon density = Delta (T^4)
- Time Transform
- Mass Transform
One atomic model named Psi (Z) has a nucleus and a set of 8 energy shells: K,L,M,N,O,P,Q,R. It's electrons have symmetric distribution due to force fields of time, probability, magnetic, and gravity types. The rates of nuclear emission are a series of differentials of conversion of mass to energy by [ e= m (c^2) ] physics, which proceed until the advance of nucleoplastic transformation to the 29th order, the output state of negative charge photon emission from magnetic or heat static matrix electromagnetons. (Illustration above.)
The magnetic h-bar and eicoson topologies (above) solved by symmetopol integrals have the exact sizes predicted by the psi's excitation eigenfunctions. They give new tetrasymmetric electron shells with five intermedon shells for: positrons, workons, thermons, electromagnetons, magnemedons. These compose the five 1/
2 k
intermedon energy particle shells.
Now the psi's equilibrium states in STP related environments are modeled as having motion or emission output to radiate excess energy diluting the psi's topology to less efficient conservation of momentum and symmetry. The events of quantized precession to excited states have 3D animation topofuncs defining picoyoctometric topologies for all force, energy, electrons, fields, and waves. CRQT grand unified theory physics resolves all of the quantum mechanics and relativity topics for all scales.
CRQT spacetime integrals work by confinement of a psi's nucleus by radiative crystallization of force field particles named relatons. They build lattice states with heat and magnetic field to confine time and probability within gravitalon lattices. Such magnethermal spheres advance to an upper state of lattice cohesion with excitation of force emissions to a static minosphere of negative charge particles named minons. The electron has time boundaried pulsations by an exact gt integral wavefunction which floods energy of minons and heat into states of magnetic and gravitalon cellular lattice density. These precessions toward wavectron states have exact quantized time, force, probability, symmetry, and heat topologies.
Now the GT atomic model is ready to video interpret any input photon gain as a strict psi precession eigenfunction of topological energy field gain. The full set of CRQT science functions diagrams an atom's complete, interactive, pulsative topology as it's mass seeks outlet by radiation of force as relatons of 1-10 x ( 10^-36 ) joules in value each.
Recent advancements in quantum science have produced the picoyoctometric, 3D, interactive video atomic model imaging function, in terms of chronons and spacons for exact, quantized, relativistic animation. The atom's RQT (relative quantum topological) data point imaging function is built by combination of the relativistic Einstein-Lorenz transform functions for time, mass, and energy with the workon quantized electromagnetic wave equations for frequency and wavelength. The atom labeled psi (Z) pulsates at the frequency {Nhu=e/h} by cycles of {e=m(c^2)} transformation of nuclear surface mass to forcons with joule values, followed by nuclear force absorption. This radiation process is limited only by spacetime boundaries of {Gravity-Time}, where gravity is the force binding space to psi, forming the GT integral atomic wavefunction. The expression is defined as the series expansion differential of nuclear output rates with quantum symmetry numbers assigned along the progression to give topology to the solutions.
Next, the correlation function for the manifold of internal heat capacity energy particle 3D functions is extracted by rearranging the total internal momentum function to the photon gain rule and integrating it for GT limits. This produces a series of 26 topological waveparticle functions of the five classes; {+Positron, Workon, Thermon, -Electromagneton, Magnemedon}, each the 3D data image of a type of energy intermedon of the 5/2 kT J internal energy cloud, accounting for all of them.
Those 26 energy data values intersect the sizes of the fundamental physical constants: h, h-bar, delta, nuclear magneton, beta magneton, k (series). They quantize nuclear dynamics by acting as fulcrum particles. The result is the picoyoctometric, 3D, interactive video atomic model data point imaging function, responsive to keyboard input of virtual photon gain events by relativistic, quantized shifts of electron, force, and energy field states and positions.
Images of the h-bar magnetic energy waveparticle of ~175 picoyoctometers are available online at http://www.symmecon.com with the complete RQT atomic modeling manual titled The Crystalon Door, copyright TXu1-266-788. TCD conforms to the unopposed motion of disclosure in U.S. District (NM) Court of 04/02/2001 titled The Solution to the Equation of Schrodinger.
CRQT science solves relative quantum femtotechnical topologies for all gases, liquids, or solids, with thermal equilibrium defined in quantized heat and probability exchange with psi's environment.
CRQT electron shells and orbitals hold even squares, and total 118 with sequential ionization potentials, and symmetric sets. View the grand unified theory of matter and energy online at:
http://www.symmecon.com/ .
(C) 2009, Symmecon Grand Unified Theory Mktg. Inc.
The Atomic Video Equation for Subatomic Scale Modeling
The symmetopol imaging process is programmable for pymtechnical interactive material modeling such as design or analysis work with transistorized IC microchips or molecular simulations. Below a gallery of new physics mockups with pymscale displays how force particles are bonded to crystallize the energy particles. The atomic GT integral video function is the supervideo interpreter for simulation of the physics of a molecule in terms of quantized time, the emission, flow, and absorption of chronons within a video virtual event model. The scenes include valid, exact force/energy field images of fluid relativistic Lorenz time transform, yet quantized by the RQT function network's terms: {e=h(Nhu)}, {Lamda=h/mv}, c=1, {e=m(c^2)}, Lorenz time and mass relativistic transform, S.B. thermal photon output rule.
These data point images have interactive physics by the equations. Especially informative visually, the EM
wave flow model succeeded, as at right, by showing the
spin-output cycle of a photon-extinction mechanism.
Electrical field output from the wave-array of static diskon photons advances with a linear progress rate of c, limited by the permittivity of space. Diffusion results in cooling, then condensation of magnefield particles which must crystallize with vortex spin to conserve the wavelength rule's momentum value. Angular velocity is negative in value, hence the field-cloud has inverse relativistic mass loss when the forward progress halts and the magnedisk spins with accelerating angular velocity. That mass loss equation is fulfilled by the law of electromagnetic induction, which applies the intensification of crossing magnefield lines to axial output of (-) electric field.
The CRQT video system likewise gives easy mechanisms to all of an atom's reactions during equilibrium states, or photon gain events which absorb those photons that have fit for the topological symmetry for the atom(s). The quantum mechanics of workons, superworkons, and electron magnetic fields may be studied to design or analyze nanocircuits with precision. That will innovate digital electronics for memristors, graphenes, or many applications.
Build projects for CRQT-MAVCAM pymscale modeling, CRQT-MAVCAM-P, start with the Workslate software package for construction of the initial video module build workstation. It will allow programmers to design flowcharts and insert tasks by coding to make animated atomic image files. It will have the roughing work capacity needed, and fit inside four management shells for shaping, finishing, polishing, and marketing.
That Softicon + Silicon Workshop 1-3 system is explained online at http://www.symmecon.com/ in the page at the grand unified theory (MS Word) link on page 1, the default page.
Workon, h particle, spin.
