What is Ionization?
… and why is it so important? Every breath we take, every move we make… so goes the song. Yet every move we make does depend on every breath we take and every drink (or meal) we take, because our movement is fueled by energy that we store in the body. We receive our energy from the triune sources of air, food and water. Energy doesn’t just ‘drop’ out of the air, food or water that we ingest. In its usual form it is not chemically available. It can’t always be called upon to support every move we make because it is not always ready for chemical reaction. For any chemical reaction to occur there needs to be two molecules involved, and each of these molecules must have something to ‘trade’, in the form of compatible atoms that are either positively or negatively charged. Positively charged molecules (and the atoms within them) will easily and naturally unite with negatively charged molecules of equivalent and compatible charge. Put simply, all of your body functions rely on the energy
Ionization is the process of converting liquids or particles wholly or partly into ions, it simply means gaining or losing an electron. Ionized water is water that has undergone the process of ionization through a water ionizer. Ionized water either becomes alkaline or acid, meaning that minerals have been segregated accordingly and the pH has been adjusted up or down. Pure distilled water does not ionize, and so is useless for ionization. You need hard water, which contains minerals (and impuriies) for ionization.
Ionization simply means to gain or lose an electron. Electrons are negatively charged. Electrons in motion around an atom create electrical current. So the more electrons in the water, the more negative charge there is. An Ion is an atom or a group of atoms with a positive or negative charge; if the ions are exposed to a specific current they will react and ionization will occur. An ionization process happens in every corner of the world and even in our brains constantly.
Ionization is when an atom or molecule gains either a positive or negative charge. It can occur in one of two ways: first, when electrons are either gained or lost by a particle; second, when one atom or molecule combines with another atom or molecule that already has a charge. The charged particle itself is called an ion. Ions that are positively charged are called cations, and ions that are negatively charged are called anions. As well, ions made up of one atom are called monatomic ions, and ions made up of multiple atoms are called polyatomic ions. Ionization often occurs because of the number of electrons a particle has. Particles with paired (even-numbered) electrons are more stable than those with unpaired electrons; atoms with filled electron shells are also more stable than those with only partially-filled shells. When particles collide and interact, electrons from one atom might be pulled to another in order to give it an even number of electrons or to fill one of its electron
…and why is it so important? Please Visit our Library for a Full List of Health Articles and Products. … Library and Site Map … Every breath we take, every move we make…so goes the song. Yet every move we make does depend on every breath we take and every drink (or meal) we take, because our movement is fueled by energy that we store in the body. We receive our energy from the triune sources of air, food and water. Energy doesn’t just ‘drop’ out of the air, food or water that we ingest. In its usual form it is not chemically available. It can’t always be called upon to support every move we make because it is not always ready for chemical reaction. For any chemical reaction to occur there needs to be two molecules involved, and each of these molecules must have something to ‘trade’, in the form of compatible atoms that are either positively or negatively charged. Positively charged molecules (and the atoms within them) will easily and naturally unite with negatively charged mol
