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10 15 20 25 30 35 40 45 29 12.Method and chemical process to create heat at the required temperature - without the applications of any pressure - within a reactor, as described in claim 1 and 2, where the percentage of the metal mixture and the choice of the metallic mixture allows the creation of large amount of hydrogen plasma and the liberation of a vast amount of electrons - in presence of a magnetic element like oxygen (O) in presence of a radioactive source (i.e. Th, Fr) within the embodiment - which can lead to creation of large amount of heat due to the absorption of electrons from the metallic material (ie. Na, K) within the embodiment and the large amount of heat due to the loss of energy within the intermediately material before return of the electrons to it’s ground state level, where it can be absorbed by the hydrogen plasma returning it back to atomic or molecular hydrogen for the same process to be repeated, where the energy of the radioactive source is converted or convected to heat not only through the free electrons of the hydrogen atom but also in addition by the electron which has been acquired by the hydrogen plasma from the atomic material (metal) within the embodiment, for example where hydrogen atom ionized through scintillation will acquire an electron (i.e. from K within the liquid) leading to the creation of heat and the free electron will relingious (reline, relegate?) it’s energy to the Ar, this leading to generation of heat into simultaneously with the material of the embodiment, where this heat be transferred through for example conductivity or convection through the embodiment of the confinement where the additional heat could be absorbed from the outer boundary from the embodiment for heating liquid, gasses or any other mixture, where this heat can be used for dissemination, disalination, to boil water or to create steam for turbines; 13. A controlled environment, as described in claim 1, with one or more cavities or cores, called a reactor, in which the new atoms or molecules, or isotopes of them, as described in claim 1, and plasma - recombine by the energy supplied by the radioactive source(s) to attain extra electrons from other elements within the mixture for them to return and/or recombine to return to their original state or atomic or molecular composition (for example where the free electrons can be attained from the metal and hydrogen plasma can return to hydrogen atom and recombine with available oxygen atoms to create water, and for the hydrogen atom to go thought the same ionization process again by the radioactive material source); or where the emitted radiation prevents certain known chamical or Liateatent eee be nate. biological combination;