The outer electron field of oxygen (O) has 6 electrons. To reach a desired noble state it would need 2 more electrons, which could be shared with other elements or compounds. When the outer electron field of an atom is not full then other elements or compounds could join onto it and form a different molecule, thus completing their respective outer electron fields. The silver atom has 1 electron in its outer electron field.
Two silver atoms joined with one oxygen atom will create stability within the entire molecule. Excessive electrical current (i.e. electrolysis) takes an oxygen atom (O) from the water (H²O) and bonds it to two silver atoms, forming silver oxide, a molecule which has completely different properties to those of electro colloidal silver. This is one example of using excessive current. All types of other compounds will form with whatever dissolved salts, solids and minerals are in the water. Compounds do not carry an electrical charge.
(Fig. 2) Positively charged silver atom (Ag+1)
Electro colloidal silver is a positively charged ion of silver. There are no electrons in the outer electron field. The silver atom of fig. 1 has 47 electrons and its proton has a charge of 47, being its positive. The electro colloidal silver atom only has 46 electrons. As a result the overall charge of the atom is positive and the atom has now achieved a noble state. The water is structured around the charged silver ion. It is referred to by research scientists as sacred geometry - and applies to all life. Because the atom's remaining outer electron field is complete, no other atoms or compounds can join onto it. This is why electro colloidal silver acts catalytically in reactions. A catalyst is something that brings about, or causes, a reaction or occurrence without itself actually participating or being consumed.
As indicated by the
chart alongside, premium quality electro colloidal silver
will have an alkaline reading. This indicates that the correct current
has been used and that electrolysis has NOT taken place.
Electrolysis is the process whereby voltage and current exceed
what the water molecules can withstand i.e. they begin to break up,
leaving excessive hydrogen in the water.
Note: One cannot use litmus paper for testing the pH
of electro colloidal silver. Correct electronic equipment is required.
The apparent misconception surrounding the issue of ppm - and its relation to quality, and efficacy in particular, needs to be clarified.
Note: "ppm" stands for "parts per million". In laboratory terms, this is actually a measurement of weight (mg/litre). This indicates "how much" of a particular mineral or element is in the liquid medium.
"ppm" has no bearing on quality, or efficacy whatsoever!
(Fig.
1)
1 particle = 10 ppm
(Fig.
2)
10 particles = 10 ppm
(Fig. 3)
10 thousand trillion particles = 10 ppm
Even though Fig. 1 and Fig. 3 equal the same ppm (mg/litre), it is quite obvious that the product in Fig. 3 will have infinitely more bio-availability and efficacy.
If Fig. 1 measures 100 or even 500 mg/litre, the product in Fig. 3 is still of infinitely higher quality.
The only indicator of quality (and efficacy) is the particle size. The end product will remain crystal clear when the production cycle is complete and will remain stable indefinitely.
A true silver colloid will have countless trillions of ultra microscopic silver particles. These are actually altered atoms of silver (i.e. positively charged silver ions) and are typically 0.001 of a micron in diameter - or about four millionths of an inch in size!
It is scientifically impossible to produce the quality of electro colloidal silver in Fig. 3 within a matter of minutes! It requires a slow, gentle process over time.
It's
not the quantity of ppm that counts,
It's
the quality!
