Abstract
We discuss the experimental verification of changes in the structure of a liquid water sample inserted in a special spiral “gradient” magnetic field. The magnetic flux components are characterized by a high degree of inhomogeneity; thus, a gradient is found in the monitored section of space. The relevant measurement of the modified, rearranged water sample pointed to a specific ion conductivity lower than that of the untreated water. The results of the experiment, where a sample of demineralized water was exposed to a spiral “gradient“ magnetic field for the period of 5 min, show decreased ion conductivity in the examined samples.
Highlights
Water, with its anomalous physical and chemical properties, surpasses all other natural substances on Earth
The relevant measurement of the modified, rearranged water sample pointed to a specific ion conductivity lower than that of the untreated water
The ions inducing the water conductivity may become more closely bound to the cluster structure of the molecules
Summary
With its anomalous physical and chemical properties, surpasses all other natural substances on Earth. Ancient philosophers considered water the most vital component of matter. Being a universal polar solvent for hydrophilic molecules having an affinity for water, the substance performs a major role in numerous biochemical and metabolic processes within cells. A closer view of a water molecule will reveal a structure with an electric and a magnetic field in the vicinity of the atoms of O and H. Multiple water molecules create complex, dynamic aggregates exhibiting specific electromagnetic field distribution, which characterizes the macroscopic physical and chemical properties of water. The central task within the related investigation is to perform experimental measurement of water via multiple methods exploiting various physical and chemical principles
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