Transmutation
Transmutation, the transformation of one element into another, is a fundamental rule of nature. Research conducted in the late 1970s by Solomon Goldfein for the U.S. Army Mobility Equipment Research & Development Command explored how this process might occur in living organisms and its potential as a new energy source.
What Is Biological Transmutation
Biological transmutation refers to the natural process where living organisms transform one chemical element into another. Long dismissed as pseudoscience, researchers like Kervran and Komaki provided evidence of transformations such as sodium becoming magnesium and potassium becoming calcium, which occur naturally in biological systems.
How Transmutation Relates to Energy
These elemental transformations involve a small loss in atomic mass, which is converted into energy. Goldfein’s calculations from his 1978 study show these reactions can release between 7.29 and 10.18 million electron volts (MeV), suggesting a significant energy surplus that could be harnessed.
The Role of Mitochondria
Mitochondria, the energy factories of cells, are likely the sites of these transmutations. They contain ions such as sodium, magnesium, potassium, calcium, manganese, and iron—the same elements associated with these reactions. The molecule adenosine triphosphate (ATP), particularly in its magnesium-bound form (MgATP), appears to play a key role in these energy-producing transformations.
MgATP as a Molecular Cyclotron
Goldfein proposed that MgATP molecules, arranged in specific formations, act like a cyclotron—a device that accelerates particles. In this arrangement, hydrogen ions (H+) could follow a helical path, gain energy, and induce nuclear reactions. This concept aligns with principles of nuclear physics and provides a plausible mechanism for biological transmutations.
Historical Evidence of Biological Transmutation
Historical observations support the existence of biological transmutation. As early as 1799, Vauquelin discovered that hens excreted more calcium than they consumed. Later, 20th-century studies by Kervran and Komaki showed similar transformations in plants and microorganisms, highlighting that this phenomenon is widespread in nature.
Implications for Future Energy Sources
If harnessed, biological transmutation could revolutionize energy production. The involved elements are abundant and safe, offering a sustainable and virtually limitless energy source. However, further research is essential to confirm these mechanisms and explore practical applications.
Conclusion
Goldfein’s 1978 research revealed that biological transmutation, a natural and fundamental process, could produce significant energy gains. While still theoretical, these findings suggest a groundbreaking potential for sustainable energy, transforming what was once considered pseudoscience into a promising scientific frontier.
Source: Rexresearch