Welcome to Symsite. Atomic Imaging Equations for Chemistry and Nanoelectronics
Symmecon markets the grand unified theory of matter and energy, a grand relative quantum
interactive topological system of wavefunctions for video data modeling of all atoms, molecules,
electrons, particles, fields, and waves. CRQT products for advanced quantum physics energy field
modeling give a complete guide to photon quantum mechanics and the relativity of electron states.
The ultraphysics concept of MAVCAM began as a pair of projects, Nabla Cubed and Topofunc.
Nabla Cubed intended to solve the Schrodinger equation for the atom. The first advances came by
study of the quantum physics equation [ e = h(nhu) ], which produced the differential expansion that
resembled a Schrodinger wave equation. Next, that format was animated by application of the
radiative nuclear model with [ e = m(c^2) ] evaporation of core mass to forcon particle states with
discrete joule values. This all seemed to fit the data, with an atom performing work of momentum
conservation while enduring intrusions. It pulsates by slight radial emissions and concentric
absorptions of force in a cycle with the frequency [ Nhu (Psi Z) = e/h ]. The GT integral atomic
structure wavefunction worked.
A form of picostructural atomic definition began to emerge, with relative quantum mathematical
sense. This all seemed to fulfill the academic, scientific quest for a grand unified theory explaining
all matter, force, and energy in reactions of all sorts. The work continued with a second project
planned to refine the exact topology of the atom's outer electron cloud, with all of it's electric,
magnetic, and thermal energy fields. The goal was to build a graphic image function capable of
generating a 3D interactive atomic model onscreen. Project Topofunc began.
This task was approached by reasoning that only a function defining psi's entire internal
momentum could lead to a format which could be arranged to focus the GT integral atomic
wavefunction to a nearly infinite degree, imaging the energy fields. The momentum function was
written. When it was rearranged to give the photon gain equation the whole scene appeared ready
for some new development, since inclusion of the quantized symmetry rays emanating from the
nucleus should allow a topological function to emerge.
The idea to solve the integral of psi's photon gain came naturally, and a series of 26 possible
nuclear output particle wavefunctions resulted. That tantalizing spectrum of energy particle sizes
intersected the values for the fundamental physical constants: h, (4pi) h, delta, nuclear magneton,
beta magneton (#28), k (series). The symmetopol wavefunctions seemed to be the essential fulcrum
energy particles which quantize electromagnetic wave, or atomic, work. That juncture of research led
to the GT atomic wavefunction clearly aligned by it's symmetry ray quantum numbers for
specific nuclear force output rates, and when the projected particle sizes were analyzed in terms
of the quantized forcon values their exact topologies became clear.
This all fit the picture perfectly, and when the h image was resolved it's flowing symmetry
and exact fit for size and mechanics proved the argument. All of the energy intermedons appeared
to act by balancing the electrons' states by commuting between them and the nucleus, a working
atomic model now of picoyoctometric definition for each energy field particle. Their bodies are
composed of nuclear force particles condensed by the radial dilution of those escaping fields. Each
performs specific work of force field transfer to balance atomic topology and generate photon
output for any of a psi's photon gain events. The pymtechnical model explained all atomic reactions,
with clear symmetry force relationships guiding the flow of atomic internal momentum in it's stress
responses, and explaining organic or mineral crystals. The energy cloud of animated video pulsation
imagery also clarified how and why the heat capacity is typically 5/2 kT J, due to the five intermedon
types with equal shares of energy in each.
The pressure gains of a heated gas are now explained by energy intermedon topologies which
apply force to their spatial environment by emission of spacons, the CRQT principle of relativistic
space. Now the Lorenz transform function for time is defined in terms of quantized chronons, and
may be applied along with further transform equations for additional relativistic particles; thermic
heat particles, magnetic field particles, negative and positive electric charge particles, workons,
superworkons which emit hs, spacons, probablons, gravitalons, symmetrons.
That built the grand unified theory of matter and energy, and it was exact in picoyoctometric
terms of relative quantum topology. The papers for disclosure of thermodynamic writings were
filed in U.S. District (NM) Court on 04/02/01, titled The Solution to the Equation of Schrodinger,
and ruled to be an unopposed motion. The book titled The Crystalon Door was written, and U.S.
copyright registered as TXu1-266-788 on 11/07/05. Symmecon Grand Unified Theory Marketing
Corporation was incorporated in August of 2007 under New Mexico laws.
Now the elusive solution to modern nanotechnical physics challenges has a clear, vivid
presentation with ready application to academic, industrial, institutional, and government science
office tasks of analysis or design.
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(C) 2009, Symmecon Grand Unified Theory Marketing Corporation