Pico-ionic minerals are monoatomic, individual particles. Ions charged atoms. They tend to bond with hydrogen and oxygen, forming hydroxides and oxides. Pico is the term for size. There is one quadrillion or 1,000,000,000,000,000 picometers in a meter. Can you grasp it? I can, but it still confuses me because we do not deal with this type of size measurement in real life.
Can we ask to paint a flower the size of one picometer? We can ask, of course, but who will do it and how?
ReMag and ReMyte are picometer minerals
ReMag and ReMyte are ionic solutions, exceptional solutions. How are they unique? ReMyte and ReMag are monoatomic, picometer solutions. Usually, ions have a habit to bond together forming clusters and more significant colonies or complexes. They can bond with oxide and hydroxide, making magnesium oxides and hydroxides. These unions act as antacids neutralizing hydrochloric acid in the stomach. They have a laxative effect, are challenging to digest, and are not absorbed completely. The absorption can be from 4 percent for magnesium oxide to forty percent.
How are ReMag and ReMyte special?
Magnesium ions in ReMag and ions in ReMyte solutions do not bond with each other thanks to the unique manufacturing practice. They do not make complexes as other ions do. What fascinates me is that the ions in these formulas are the same size as the periodic table?
Can you imagine that these ions in ReMag and ReMyte are the same size as minerals in the soil? Plants get minerals from the ground using the root system. Minerals travel through tiny rootlets to the plant.
Minerals can not be more minor as created in nature. ReMag and ReMyte have pico-ionic minerals size of atoms in the periodic table. Nobody can make ions in an insignificant way. They are not divided further, and It is the end of the limit.
How do minerals reach the body?
The food travels from the mouth down to the stomach. Individuals who thoroughly chew food help saliva start the digestive process. In the stomach, hydrochloric acid releases minerals from food in the form of ions.
Digestive juices ionize minerals creating individual ions. According to Dr.Carolyn Dean, “ions are the basis of biological energy and function.”
Later on, individual ions, freed from food, attach proteins to carriers. In this way, minerals are delivered to various places in the body.
What is the ion?
Ion is a negatively or positively charged atom. Cations are positively charged ions, and anions are negatively charged ions.
When the atom loses or gets an electron, it is electrically charged. To completely absorb minerals, they must have an electrical charge.
This electrical charge makes ions interact with others, attracting or repelling each other in a search for another ion.
Why does electrical charge benefit the body?
Electrically charged minerals are starters, cofactors, and catalysts in the body’s metabolic processes. Cells in the body are surrounded by fluid, saturated with cations( positively charged ions) and anions(negatively charged ions). The liquid inside the cell is the same.
The electrical gradient formed thanks to the separation of atoms with specific electrical charges. Thanks to this current or electrical gradient, mineral ionic particles flow smoothly through the cell membrane.
Monoatomic ionic minerals in ReMag and ReMyte are absorbed quickly because of their small size and electric charge.
How small is small?
Minerals enter the cell through ion channels. These channels are 400-500 picometers in diameter — ion channels made from proteins that form pores through cell membranes.
I read that ReMag goes straight to the cell. When we drink water with ReMag, magnesium reaches cells already in the mouth. It does not have a laxative effect. The absorption is 100 percent.
I thought about how it could be because it is not easy to grasp that minerals in ReMag and ReMyte are so small. They are so tiny that they instantly go into the cell.
How does the body benefit from pico-ionic minerals?
The absorption of pico-ionic minerals saves plenty of energy for the body. Pico-ionic minerals are so small that they go straight to the cell. The digestion process is shortened. The body can perform more efficiently.