Re: Heat reduced CS...

While I'd say the larger particles seems likely, I'm not convinced the PPM has either changed due to heating. ie.

1) I created 2L of 10ppm ionic silver at room temp this morning. The calculated was based on the following formula: Time(mins) = Volume(L) X PPM X 15/mA

I proceeded to take 1L from this batch and boiled it for 60 mins. I then recorded my results.

I then repeated the process with the other Litre of ionic silver by placing 3 drops of invert Sugar on a stirrer with low heat(just short of boiling) for 30 mins). I didn't raise the temp close to boiling so as to avoid any reduction due to heat. It was noted that the solution would not change colours passed 8-10 mins following the addition of the reducing agent.

I then created another batch of ionic silver(room temp) at 20PPM using the same formula. I then divided and repeated the process used with the previous one.

And finally... I created yet another(third batch) two litres of heat reduced Colloidal Silver , except that this time, I would not base the timing on the calculation given that the heated solution would turn yellow sooner than the room temp one. And the reason for this is where the conductivity of the water rises due to the absence of free oxygen in the water.

Having done this, I then divided and repeated the same process as I did with the other two batches and recorded my results.

So here are my observations.

1) The resulting 10 PPM solutions(heat and chemical reduced) could be made identical in colour and tyndall effect. Though the additive version took only minutes before capping out, whereas the heat reduced version took nearly an hour.

2) The 20PPM Ionic solutions shared the exact same outcome as the 10PPM batch. Though the end result would prove to be far denser as it started into the green colour spectrum.

3) Interestingly enough... the 20PPM solutions created under heat solutions did not prove to be denser or darker in colour than the ionic equivalents. Though I did find that it would take much less time to reach a maximum then with the room temp batch. Which tells me that creating high temp Colloidal Silver doesn't change the PPM of the initial process beyond that of improving the conductivity of the solution. Whereas the heat reduction effect likely takes place in the order in which the ions are released into the solution. IOW. if the plug is pulled at 1:45m, then the remaining last ions in the solution will remain as such. Which in turn, would result in a ionic/metallic type solution.

Hope this helps.