Relativistic Chiral Inversion of Non-Zero Nuclear Magnetic Moments During Centrifugal Industrial Fermentative Processes

Abstract: Fermentative productions of amino acids are thought to retain homochirality. This work can propose rotational motions for accelerations by centrifugations during fermentative processes enrich heavier, stable isotopes of differing nuclear magnetic moments (NMMs) with the consequent possibility of altered chirality and magnitude of rotating polarized light for altering chemical, physical, and biological phenomena of such enantiomers. The author discovered gravity seeding homochirality. Thereby in this work, the … Show more