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10 15 20 25 30 35 40 45 50 18 Terminals (118), as mentioned above, will have at least one electrode (111) and at least one pick-up element (114), where said electrode (113) is connectable from the outside of the embodiment or from the outside of the cavity, and where the electrode’s other side (112A, 112B, 112C, 112D) reaches into (122) the reactor, either only into the gaseous area (132), either going through the gaseous area to reach into the liquid (133) or into solid matter, either reaches directly into the liquid matter (134) or solid matter, and where at least one pick-up element (114) surrounds (115) in an insulated way said electrode (111). Terminals may use wires composed by one or more nanotubes and/or graphene bands. We claim the method, unknown in prior art, and the production design of a terminal - to be used be used as anode/cathode in a closed reactor, as described in claims 1 and 2, where the electrode (110) is directly connected to a nuclear source (116) or to containing or holding means of said nuclear source. nuclear process to create electromagnetic and magnetic fields in a controlled way - in a closed environment (120, 140)(for example a closed embodiment or container 140 with one cavity 122, one liquid mixture 125D, one nuclear source 116, two terminals to collect current 118, 129) like a TIPl-reactor - in the first stage a number of new atomic and molecular elements of the periodic table and their isotopes which did not existed in the initial state in the environment or which were not present in these quantities, by means of interaction of the radiation (128) of specifically chosen radioactive source(s)(123, 124, 126, 116, 127)(like of low radiation i.e. 0.1-millirem) with specifically chosen initial chemical or biological material(s) or both - thus by gasses or mixture of gasses, liquids or mixture of liquids, or mixture of liquid gasses and/or solid materials inside a liquid, i.e. 20% liquid (144) + 20% solid (143A, 143B, 143C, 143D) + 60% mixture of gasses -, without - in the cavity or outside the cavity - the need for any a. electromagnetic source (i.e. an inside magnet or coil), b. ultra-violet source, or pressure means, electronic device(s) or components (like a capacitor, a battery, a resonance circuit, etc.), f. motion means, as all the effects resulting from such additional sources, devices and means are or can be created in a controlled or programmable way inside the reactor itself by said interactions by the correct choice and composition of the initial material(s) and the nuclear source(s), and g. without the use of any external intervention (which are in the actual state-of-the-art triggering factors or conditions for the creation of atomic or molecular elements, i.e. an electrical input to initiate internal processes, positioning of magnets or coils around the 2 cavity), A. without terminals to collect current(s); hee abo fea. Re te ee. and bringing the specifically chosen nuclear source(s) into contact or in interacting reach with said specifically chosen initial materials - within one or more cavities in the reactor - in their correct composition(s) to perform the desired interaction(s) to create the said new atoms and molecules in the first stage, and - in the second stage - said interactions leads to the creation of plasma and the We claim the method and the chemo-nuclear, bio-nuclear and/or bio-chemo- c. heating means,