Element zero releases energy when it is conducted to electricity
How does it work?
Element Zero has no protons, but electrons and neutrons. Therefore, when the sample of Element Zero is attached to electricity, the neutron inside the nucleus would become unstable and likely to split. As a result, huge amounts of dark energy would be released according to the Theory of Relativity. The amounts of energy released depends on how many electrons are in the "isoelectronims", which refers to different kinds of Element Zero that have different numbers of electrons. The more electrons it has, the more energy it releases. In addition, the amount of energy it releases also depends on how many neutrons it has. Generally, Rz with more neutrons becomes more unstable when the electricity is attached to it, and therefore, it releases more energy. What's more, scientists also found that the amount of voltage can also influence the amount of energy Rz releases. For a sample of Element Zero with same number of electrons and neutrons, the more voltage the electricity has, the