%0 Journal Article
%T When a Particle is really a Cluster, a Dispersion a Suspension and there is no Colloid is in sight, you have the recipe for Colloidal Silver that is not a Colloid either
%A Hans Laroo
%J Biocoreopen
%D 2020
%X Little headway has been made for the past eighty years, but with the rise of infectious diseases immune to most of our arsenal of antibiotics, alternative and less vulnerable strategies have to be found. Accordingly the race is on to find a formidable adversary capable of eradicating the so-called biofilm protected bacterial colonies that are on the increase. Strangely enough the material most likely to have any chance of success has been banned by the Australian Government in 2003. This Legislation, enacted by the Therapeutic Goods Act (TGA) prohibits the so-called colloidal silver to be advertised and/or recommended as a medicine. Instead the only reference that can be made about this material is to name it a£¿£¿TREATED WATERa£¿£¿. The reason for the introduction of this Legislation lies clearly in the domain of that part of the scientific community not having bothered to create standards and clarity as to what actually constitutes nanometre sized atomic silver clusters in suspension
%K quantum physics
%K nanometre sized atomic silver clusters
%K capacitive reactance testing and linear cross polarisation strategies Illustration of a typical 24 channel distribution current limiting generator for increased colloidal silver production twenty four times faster. It does this without compromising quality. Voltage potential and current limiting control are adjusted for a 1% tolerance. Normally electrical parallel circuits suffer from so-called a£¿£¿current hugginga£¿£¿ which means that some circuits draw more than the others. This system is immune from that. See closed box with output terminals to electrodes and the actual circuit components inside that regulate everything. Pictures of both a closed case as well as an open case showing components Illustration of a typical vacuum tube voltmeter. Please note that the values increase to the right and diminish toward the left in an opposite way to conventional analogue multimeters. To the far right is the maximum value of 1
%K 000 million Ohm shown. This is a rough idea of what a basic electronic circuit of a Vacuum Tube Voltmeter or VTVM for short. It consists basically of a HT power supply and a low ac voltage of 12.6 volts (2 x 6.3v)
%K a twin triode vacuum valve
%K a 500 micro ampere (500 uA) panel meter and variable resistor for biasing and other resistors
%K some of which are used as a voltage divider. The reader will note that compared to a transistor voltmeter with an average impedance at the input of 10 kilo Ohm
%K the vacuum tube can offer an impedance at least a hundred times higher. This is due to the fact that between the grid (small dashed lines and the plate at the top of valve
%K there is no actual physical connection.
%U https://biocoreopen.org/ijnme/When-a-Particle-is-really-a-Cluster-a-Dispersion-a-Suspension-and-there-is-no-Colloid-is-in-sight-you-have-the-recipe-for-Colloidal-Silver-that-is-not-a-Colloid-either.php