08 Dec 2015

Lightbournian axiom 1:

1.1 Amphiphilic Enantiomer Colloids are Bioteksa’s products.

1.1.1 Amphiphilic Enantiomer Colloids ARE NOT DISSOLVED

1.1.2 Amphiphilic Enantiomer Colloids ARE ADDED

 

Lightbournian conjecture 1:

1.1 If Colloids are not dissolved but added, thus they do not go through the processes of dissolution: SOLVATION, SOLVOLYSIS, DISSOLUTION.

1.1.2 On the SOLVATIVE processes, electrostatic Coulombimetric interactions occur when the molecule to be solvated surrounds the water.

1.1.3 During the SOLVOLYSIS phenomena, the Coulombimetric attractions become electromagnetic Boltzmann phenomena.

1.1.4 During DISSOLUTION the electromagnetic Boltzmann phenomena become intramolecular Debye-Huckel interactions, in which we talk about IONS IN SOLUTION that behave according to equilibrium constants of each species in dissolution.

1.1.5 This is by definition A MIXTURE of IONS with IONS in an AQUEOUS SOLUTION.

 

Lightbournian Postulates:

1.1 Amphiphilic enantiomer colloids, fulfilling axiome 1 and conjecture 1, ARE NOT A MIXTURE PER SE, NEITHER THEY GO THROUGH PHASES OF IONIC EQUILIBRIUM.

1.1.2 Amphiphilic enantiomer colloids react in combination with one each other, generating aggregated colloidal species different from the originals.

1.1.3 Amphiphilic enantiomer colloids, when combined and forming new colloidal compounds, require a specific reaction time, a specific reaction order, and a specific reaction temperature.

1.1.4 The minimum amount of reaction time is 5 minutes with water, 10 minutes with the following aggregate, 15 minutes with the subsequent and 25 minutes with the final combinatorial.

1.1.5 The final combinatorial of the multicompound system will be a maximum of 5 amphiphilic enantiomer colloids products

 

Lightbournian Theorem:

1.1 Bioteksa’s products ARE NOT MIXED, THEY ARE COMBINED forming colloidal aggregates that scatter uniformly on the aqueous environment because of their hydrophilic head feature.

1.1.2 Bioteksa’s product ARE NOT MIXED, THEY ARE COMBINED forming colloidal aggregates that release water on the rhizospheric stern layer equaling osmotic pressures thermodynamically due to its hydrophobic characteristic in queue.

 

Lightbourn’s Law:

The amphiphilic enantiomer molecules are associated physically and not chemically, generating chain multicomponent systems of MarcovLightbourn.

The aggregates are formed spontaneously following a start-stop process with well-defined properties, where the maximum radius of a micelle is determined by the length of the hydrocarbonated chains, answering only to Krafft temperatures and to the denominated surfactant number that defines the molecular structure:

 

Ns = v/ Ia0

v= volume

I= length of hydrocarbonated chain

a0= area of head field

In such a way that, the enthalpic change of the amphiphilic-enantiomer colloid cell membrane equals the change on the internal energy of the integrated system: colloid + cell.

Thus we determinately conclude that:

1.- BIOTEKSA’S PRODUCTS ARE NOT MIXED… THEY ARE COMBINED.

2.- THERE IS AN AGGREGATION ORDER.

3.-THERE IS A REACTION TIME.

R I P

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