QED is one of the most successful theories of physics. It predicts the values of physical properties to very high precision. But, the success is not complete, it has some issues. One is that it isn't capable of being extended to solve nuclear forces.

Some of the problems of these theories are that they do not provide good predictions, they lack aesthetics or beauty, or they don't build on first principles in physics. The various approaches start with Einstein's General Theory of Relativity, mathematical Group Theory, or QED. These approaches lack cohesiveness between each other. QED has very little in the way in the concept of curved space-time in it. Group theory uses symmetry arguments to group forces and particle properties and attempts to explain why they are grouped. Einstein attempted to use curved space-time to explain electric forces, but lacked the ability to explain quantum effects. The large scale is at total odds with the subatomic scale.

A major hurdle in the present model of particles and forces is the inability to predict a particle's mass. Another is to explain why mass warps spacetime.

This document attempts to piece the physics puzzle together. Showing how the presently accepted physics concepts can be generalized and applied to the large scale and subatomic scale. There are very few new concepts shown here. The interpretations of Einstein and Bohr are used, formulas from Special Relativity and Quantum Theory are needed, and concepts from superstring and hyperspace theories are present. These ideas are shown to mesh together. Piecing these various physics concepts together into a single theory is what follows.

The place to begin showing a comprehensive model requires a new interpretation for a particle's rest mass.

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