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10 15 20 25 30 35 40 45 50 76 full (fig.1), or can contain at least one hollow space (75B) - different from the total reactor cavity (10A) itself - which can be used i.e. as a container (75A) for initial material(s), as described in claim 1, and/or at least one tube, borehole or pipe (77) to transport elements for a shorter time through one or more specific gravitational and/or magnetic fields or zones of specific temperature created by the reactor; 78. Reactor (fig.8), as described in claim 2 and 47 or in claims 2, 48, 49, 50 and 51, which can create alternating current (83) and direct current at the same time where the alternating current can be created by variation(s) in the thickness (84A, 84B and 84C) of the boundary of one or more core(s) by addition or variation of the same material or any other material in the core or on the core surface - internal (84B) or external (84A) - or on at least one blade (84C), which could be placed at any specific position and any size, such as on a blade (80) or on the reactor core(s) embodiments to create a dip (85A, 85B, 85C) or other variations in the magnetic or gravitational field - different from constant and normal operation production of the magnetic field and/or gravitational field created by the core (85D) - of at least one core that by the interaction of the magnetic field of at least one core and the electrical plates (81A, 81B) placed at the boundary of the core will lead to the creation of alternating current (83) in the combination of setting of the zones and the plates or electrodes; 79. Method where in a plasma reactor (fig.8) alternating current (83) and direct current can be created at the same time where the alternating en a es en a. by variation(s) in the thickness (84A, 84B and 84C) of the boundary of one or more core(s) b. by addition or variation of the same material or any other material in the core or on the core surface - internal (84B) or external (84A) - or on at least one blade (84C), which could be placed at any specific position and any size, such as on a blade (80) or on the reactor core(s) embodiments, c. by variation in the speed of the rotation of at least one of the embodiment of the core, due to the variation in the strength of magnetic fields in any of the cores; to create a dip (85A, 85B, 85C) or other variations (82A, 82B) in the magnetic or gravitational field - different from constant and normal operation production of the magnetic field and/or gravitational field created by the core (85D) - of at least one core that by the interaction of the magnetic field of at least the core and the electrical plates (81A, 81B) placed at the boundary of the core will lead to the creation of alternating current (83) in the combination of setting of the zones and the plates or electrodes; 80. Separation wall (12A), as described in claim 47 and 51, that can be: a. a single material core (104B) made out of one material or combinations of materials in any state of matter, b. multi-layered (104A)(i.e. laminated, deposited, ...), i.e. embedded coated elements into glass or any state of matter, current can be created