Magnetic currents are energy waves that can produce heat and energy. Professor Felix Ehrenhaft’s experiments showed that magnetic currents can break water and release oxygen and hydrogen. Magnetic currents have potential as a rival to electric currents, but more research is needed to determine their behavior and how they can be harnessed.
Like electric current, magnetic currents are waves of energy that flow through the universe. There are electric fields around magnetic currents and these currents are capable of producing heat and energy if the energy is conducted correctly. Many scientists who have studied magnetic current believe that, with further study, it could be harnessed to provide the same type of function as electric current.
Professor Felix Ehrenhaft, former director of the Physics Institute of the University of Vienna, is famous for his experiments with magnetic currents. Ehrenhaft believed that magnets have positive and negative ions, just like electricity. He hypothesized that those positive and negative ions can conduct energy and react with each other. To prove this point, he used iron bars with opposite charges to act as magnets.
These studies and experiments have shown that a magnetic current can break water. Ehrenhaft’s pole pieces were magnetically charged with opposite charges, corresponding to the north and south ends of a magnet. He put those two rods into a U-shaped tube that held the water. When the opposite charges of the magnets reacted with each other, bubbles arose in the water which were then collected and analyzed.
Ehrenhaft discovered that as a result of the chemical interaction between the iron rods and the sulfuric acid, hydrogen was released into the water. According to those who studied Ehrenhaft’s experiment, the most phenomenal part of the experiment was the presence of oxygen. He discovered that when magnetic current was used to separate water, more oxygen was found above the north pole of the magnet. After considering all the possibilities, he determined that the only explanation for the presence of oxygen above the magnet was that the water decomposed due to the chemical reaction.
The experiment and the conclusion that the current broke the water serve as proof of the existence of the magnetic current. Some believe this discovery highlights magnetic current as a potential rival to electric current, equally capable of being harnessed in a multitude of ways. Ehrenhaft was able to create a chemical reaction with magnetic current, so it’s possible this energy flow could be created and harnessed in other ways for human use.
Before magnetic currents can be used effectively, several questions about their behavior must be answered. As of 2009, there is no conclusive evidence to determine whether they can be conducted through similar wires as electric currents or conducted through liquids. Some even believe that perhaps the most effective magnetic current insulators may be totally different materials than those used for electric current insulators.
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