When the sub atomic particle leaves an atom it is carrying with it the harmonic signature of that atom. When it then comes into contact with another atom it will only enter this atom if the harmonics of the particle are within the parameter range of the new atoms interface window. It is effectively saying, "Hi guess where I've been want to play" this is because the sub atomic particle is carrying an imprint of information about the atom it has just left. The new atom is receiving information about who the neighbour is from the harmonic bedded within the sub atomic particle. In effect this means new atom can tell what the nearby atom is and in what direction it is. The atoms are not talking to each other but they are passing on information about themselves. This information is important because the next stage of bonding requires the atom to know who their neighbours are.

Think of this as like television channels we are bombarded by hundreds of TV channels and our aerials pick the all up but the TV only selects the one it wants at any particular time. The TV is in tune with the signal, so it is with atoms.

The interface described here is the condition where a sub atomic particle has an interface with an atom at a harmonic range sympathetic with to both the sub atomic particle and to the atom. This harmonic has both a top and bottom range between which interface can take place. This means that where a harmonic is near the top of the range, as well as at the bottom of this range, an interface can just squeeze in. In the middle of this range it is in perfect harmonic and will have a perfect interface.

Where the sub atomic particles are much higher or lower than this ideal atomic range the particles will just skim around or off the atom. In the very high energy ranges of the sub atomic particle, the energy levels are such that a particle will simply pass straight through the atom as if it were not there.

Even within the limited range of interface at the atomic level there exist an vast range of possible interactions between atoms and sub atomic particles. It is the passage of these particles from atom to atom that allow them to combine into more complex linked matrix and thus into complex molecules.

This is this process at the heart of sub atomic bonding.

ATOMIC INTERFACE BONDING

The sub atomic interfacing described in the previous section shows how the sub atomic particles react with the shell and core of individual atoms to exchange energies and harmonics. We have also seen how small atoms can combine into larger units, here we will look at the combining mechanisms that allow atoms to bind together to form molecules and implications behind this process.

We will start by looking at a fairly complex atom. We have an interface particle that enters the atom through the atomic window then leaves again through its atomic exit window, all this as described in the previous section. On leaving the atom the sub atomic particle carries with it the harmonic signature of this atom.

This entering and exit of sub atomic particles, although random, is continuously happening, with sub atomic particles leaving the atom continuously and being pushed out onto the surrounding space.

These particles then react with other atoms, some skim off these other atoms or bounce back off them, some however will inevitably come into contact with the atomic interface window of a compatible atom. When this happens a series of events takes place the results of which depend upon various compatibility factors of the secondary atom. The conditions of this atom, its internal energy levels, gravimetric pressures and the external environment, all play a part in how the atoms react.

These conditions will be detailed later but for now we can assume that the sub atomic particle having left the first atom is compatible with the second atom and will enter its atomic window.