Quantum Mechanics of Molecules in CRQT Grand Model Terms

The completion of projects Nabla Cubed and Topofunc brought the MAVCAM system to reality, and now the third stage project Polypsi 1A aims to resolve the basic gas and liquid molecular physics SYMAVIA system of analysis:
Symmetopol Molecular Animated Video Image Archive.

CRQT MAVCAM Electron Topology

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Polypsi functions are molecular waveparticle mapping equations that define atomic states for multiatomic bonded sets.  Resolution is basic at the picoyoctometric scale.   An introductory discussion follows. __________________________________________________________

              Progress of the GT atomic wavefunction  to the level of  definitions for multinucleate molecules will mean writing one equation for one particle.  That will mean an intermedon function to represent the junction lens bond particle.  Since the GT psifunc is valid for photon gains the arrival of a nearby atom may be calculated as a photon gain as well.  The exact junction lens topology is definable by the symmetopol integral, so it can be solved as an intermedon.  This topic extends to the more complex biomolecules and involves close comparisons of measurements.    

The MAVCAM system of software build projects is available on the Internet at  | http://www.symmecon.com |.  The Symsite displays advanced pymtechnical physics modeling infotools, discussions, graphics, and the book introducing the nanovideo grand unified theory of matter and energy titled  The Crystalon Door.  This science thriller displays how the quantum wavefunctions for frequency and wavelength are combined with the relativistic transform functions for time, mass, and energy to produce the CRQT (Clough Relative Quantum Topological) atomic model.  The GT integral atomic topofunc is the pymtechnical video equation for projecting 3D animated interactive data point images of atoms for nanoscience design or analysis projects.  CRQT is ideal for academic applications using molecular or material models.

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New Quantum Physics Particle

Modeling Functions                                                                                                                                 October, 2009

     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. This format returns clear numerical data for a full spectrum of variables.  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.

     Now quantum physics has a topological function network for exact pymtechnical data point mapping of materials or molecules.  Examples of  CRQT particle topological graphics display the new, relativistic model’s format.

Magnetic energy particles may have various sizes and topologies as isomers of one basic form.

 

Electron Topology Displays Compound, Cellular Femtostructure

 
 

 
 
 

 

 

 

 

 

 

January 15, 2009 Posted by symmecon | MAVCAM, SYMAVIA | gas and liquid molecular physics, mathematical models, Molecular, Quantum Mechanics | 2 Comments