Early science decided on the topology of matter as a system of atoms, durable units of mass. The development of the full periodic table of elements gave each one a clear electron structure. Now the classical mechanical definitions and models of atoms and waves are at the particle physics crossroads where only a conclusive synthesis of modern relative quantum observations
and mathematics will do.
New Science Will Resolve the Contradictions of Relativity and Quantum Effects
Quantized changes of atomic states give molecules or materials their unique qualities, a fact which needs the support of relative quantum time, mass, and energy. A new synthesis of these ideas can build modern particle physics concepts for designing mathematical topological models of particles that will closely mirror their reactions, an intriguing project that could lead to interactive nanovideo modeling of semiconductor circuits and biomolecules.
That is the next, necessary sort of infotool that will open new science as a video data simulation medium
with RQT definitions and dynamics. The topic begins with the relative and quantum functions that define
subatomic particle states and reactions.
1. Relativistic Lorenz-Einstein transforms for time, mass, and energy.
2. Quantum functions for electromagnetic frequency and wavelength.
Now the two may be combined by addition to write a set of more powerful equations capable of topological particle definition with RQT function networking for animated picotechnical semiconductor modeling imagery. The scale challenges new science to develop particle definitions for heat, magnetic energy and
force, positive charge energy, electromagnetic photons, and the full spectrum of atomic force and energy
fields. One way to envision the unified atomic model is by application of the new RQT function network to
build this form with an exact electron cloud that is suffused by it's known ~5/2 kT J internal heat capacity energy field content. When the model is complete it's atomic topofunc will project a true 3D psi image
which responds to keyboard entries for changes of environmental variables, or photon gain events, by adjustment of the data point set in the quantum shifts which occur on the ~picoyoctometric scale as force
and energy fields exchange particles to redistribute content in a new, symmetric design.
