Understanding drops of solution per ounce of water in terms of concentration

I've read Jim Humble's book The Master Mineral Solution of the Third Millennium and I have one main question.  Doses are explained, in terms of drops and ounces of water, but not in terms of concentration, ie: parts per million (ppm).

If one mixes one drop of MMS with one drop of 50% citric acid, is that considered 2 drops of 100% pure Choline Dioxide?  In other words, the concentration would be 1 million parts per million?

Now if one adds one ounce of water (600 drops) then the concentration would be 4 drops/604 drops or 0.0066 or 6,600 ppm.  Is this correct?

The reason I ask is KV Labs offers NatriChlor, a Chlorine Dioxide Solution in 3,000 ppm concentration, and also a two part kit of Sodium Chlorite and Hydrochloric Acid. They state 3 drops of each added to 4 ounces of water will result in a 30 ppm solution.But according to my math, 6 drops/(4 x 600 + 6 drops) would result in a 0.0025 or 2,500 ppm concentration.  Unless the concentration of Parts A & B are 0.01 (10,000 ppm) prior to adding water.What am I missing?My concern is what is a safe concentration level to use?  Jim Humble’s book specifies number of drops, and ounces of water, but I do not see any place where he mentions the actual concentration of the solution prior to consumption.  Which of course would be determined by the concentration of both parts prior to mixing.Thank you in advance.

Sir Ed wrote:

I've read Jim Humble's book The Master Mineral Solution of the Third Millennium and I have one main question.  Doses are explained, in terms of drops and ounces of water, but not in terms of concentration, ie: parts per million (ppm).

If one mixes one drop of MMS with one drop of 50% citric acid, is that considered 2 drops of 100% pure Choline Dioxide?  In other words, the concentration would be 1 million parts per million? No. First of all, when counting a dosage, 1 "drop" of SCS + 1 "drop" of acid activator would be considered a "one drop dose of MMS1". We only count "drops" of SCS. 

Since CLO2 only comes from SCS and not from the acid activator, you are suggesting that at 30 seconds of activation time, 100% of available CLO2 will be released from 1 "drop" of SCS, when in fact only 10% of available CLO2 is released from that 1 "drop" of SCS. 

 
The residual SCS can be further activated in stomach acid and elsewhere in the body by other acidic substances. 

By the way, we use the international standard of 20 drops per ml of solution, so drop size is 0.05ml which can be measured with a 1ml syringe. Who knows the drop size dispensed by your droppers. 

 
Now if one adds one ounce of water (600 drops) then the concentration would be 4 drops/604 drops or 0.0066 or 6,600 ppm.  Is this correct? Adding water will dilute CLO2, yes. 

The reason I ask is KV Labs offers NatriChlor, a Chlorine Dioxide Solution in 3,000 ppm concentration, That is CDS and not MMS1. and also a two part kit of Sodium Chlorite and Hydrochloric Acid. They state 3 drops of each added to 4 ounces of water will result in a 30 ppm solution. But according to my math, 6 drops/(4 x 600 + 6 drops) would result in a 0.0025 or 2,500 ppm concentration.  Unless the concentration of Parts A & B are 0.01 (10,000 ppm) prior to adding water. What am I missing? My concern is what is a safe concentration level to use?  If you follow MMS1 protocols, and heed the Three Golden Rules, your dosing should be fine. Jim Humble’s book specifies number of drops, and ounces of water, but I do not see any place where he mentions the actual concentration of the solution prior to consumption.  Which of course would be determined by the concentration of both parts prior to mixing. Thank you in advance.