How Do Bacteria Survive?

Formation of Free Radicals in Relation to Bacteria and Magnetism in the Body

Think of unstable elements moving around the body, looking for an electron to make itself stable. It will steal an electron from wherever it can, at the expense of a stable cell, which needs the paired electrons to remain stable. When a cell loses an electron from a pair, it will lose energy and die, sacrificing itself to the "thief". This is how bacteria and cancer thrive (see Fig. 1).

Magnetism affects the electron stability of cells. Electrons of a cell are established in pairs. If one electron is lost, the cell will lose energy and die. When that electron is taken by oxygen that becomes unpaired, free radicals form and destroy cells. Magnetized water can protect cells from losing electrons, and re-stabilize the oxygen molecule. It also de-activates free radicals and protects the cell by preventing it from losing one of its electrons (see Fig 2).

Normally, bacteria in our body are stable. In fact, they are essential for our survival, such as intestinal flora found in the colon. It is only when bacteria lose an electron from a pair that they become erratic and harmful. This is how diseases related to bacteria flourish. Energy is produced through electromagnetic forces in the body. Magnetism activates the electrons surrounding the cells, and stabilizes electrons in pairs to maintain the normal structure and function of cells. Loss of an electron destroys the cell's stability, resulting in its loss of energy and the production of free radicals.

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