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10 15 20 25 30 35 40 45 14 plasma) are accelerated by adding pressure, heat, electromagnetic fields, current, new relevant matter and/or radioactive sources to one or more cavities. As explanined before this reactor will produce also energy without any of these means are active. We further disclose the method to change the degree of internal interactions processes between the radiation from the radioactive source(s) and the inside matters (the contained gasses or mixture of gasses, liquids or mixture of liquids, or mixture of liquid gasses and/or solid materials inside a liquid, and the new atoms or molecules or isotopes of them and the plasma) inside a reactor, as described in claim 1 or 2, by adding - by transporting and insert means - additional matter(s) from at least one separate containing means (i.e. from a outside tank with liquid matter, from a container in the wall of the reactor) to one or more of the reactor cavities. Method to change the degree of internal interactions processes between the radiation from the radioactive source(s) and the inside matters (the contained gasses or mixture of gasses, liquids or mixture of liquids, or mixture of liquid gasses and/or solid materials inside a liquid, and the new atoms or molecules or isotopes of them and the plasma) inside a reactor, as described in claim 1 or 2, by removing - by collecting and transporting means - new matter(s) from one or more of the reactor cavities to at least one separated containing means (i.e. to an outside tank, to a container in the wall of the reactor). A new method to collect free electrons by a plurality of terminals (electrodes) is disclosed. This method is specifically appropriate to be used in our plasma reactors, because in the liquid(s), plasma’s and gasses are a multitude of potency differences. On each of such spots voltage and current can be collected. They are provoked by the internal interactions processes between the radiation from the radioactive source(s) and the inside matters (the contained gasses or mixture of gasses, liquids or mixture of liquids, or mixture of liquid gasses and/or solid materials inside a liquid, and the new atoms or molecules or isotopes of them and the plasma) inside the reactor, as described in claim 1 or 2. Said terminals can be located ina gaseous area and/or in a liquid area, or booths at the same time, and can be positioned in solids. The terminals are preferrable positioned in such a way that each covers a different zone with electrical potency. We claim such a reactor that is equipped with a plurality of terminals (see fig. 21 and 22) where at least half of the terminals are connected in a serial way, and where a microchip or other electronic device (i.e. a rectifier) may connect certain terminals is such a way that there is at least one quasi stable output of current. Another such reactor can be equipped with a plurality of terminals where at least two or more of the terminals are connected in a parallel way, and where a microchip or other electronic