Claims:
1. Method and chemical process to generate 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 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 specificly choosen radioactive source(s)(123, 124, 126, 116, 127)(like of low radiation i.e. 0.1-millirem) with specificly choosen initial chemical or biological material(s) or both - like 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, – in the cavity or outside the cavity – without the use, or need for any
a. electromagnetic source (i.e. an inside magnet or coil),
b. ultra-violet source,
c. heat,
d. pressure at ambient conditions,
e. electronic device(s) or components (like a capacitor, a battery, a resonance circuit, etc.),
f. motion means,
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 cavity),
but bringing the specificly choosen nuclear source(s) into contact or in interacting reach with said specificly choosen 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 radioactive source interactions with the newly released, or already present in the embodiment, atoms or molecules to lead to the creation of plasma and the release of electrons (and for example from the creation of atomic or molecular hydrogen), where not only said material(s) is the source of the atomic or molecular element, but the created element(s) (atoms and/or molecules) is automatically ionized by the same radiation source(s) which leads to the creation of plasma and the creation of electrons or by any other radiations source(s) inside one or more cavities in/off the embodiment, where the said released components in interaction with matters like liquid metals which where in the initial material(s) will lead to creation of a desired magnetic field(s), and where said interactions in conjunction with the energy from the radioactive material will provoke also changes of polarities of flow of the charges within the initial material, which can lead to the creation in difference(s) of electric potency (voltage) and electrons movements (current) which can – if desired - be collected by at least one terminal (118, 178);
2. Method and chemical or biological process, as described in claim 1, where the above mentioned reactor may be equipped with one or more of next devices or sources:
a. ultra-violet source,
b. electromagnetic source (i.e. an inside magnet or coil),
c. heat source,
d. pressure means,
f. motion means
but where the reactor is still able to perform preferred reactions – such as the creation of plasma and of atomic hydrogen - even if all above mentioned devices or sources are not activated, but where said devices or sources may – being activated – accelerated the preferred processes or may alter partially the outcome;
3. Method and chemical or biological process, as described in claim 1 and 2, where by the right choice of material within one or more cavities and/or the correct choice of the containment(s) itself some of the energy - released through scintillation - will be released in visible electromagnetic waves, like the white light, blue light, etc, which these lights could be of monomagnetic waves of higher order which this itself is/can be of the order of a laser, where this beam itself can become a source of ionization of the initial material within the containment or the containment material itself. (i.e. this laser energy be made to ionize the hydrogen atoms leading to the creation of plasma and current).
4. Method and chemical or biological process, as described in claim 1 and 2, to synthesize - under specific conditions of composition of initial material(s) and nuclear source(s), and controllable subsequential process steps – new desired atoms and molecules, for example creation of new stable material(s), like atoms of the element 113 (Uut) and 115 (Uup) of the Periodic table, where a shared free electron or the hydrogen plasma within the intial material in cooperation with alrady metal mixture of isotope iron-58 in presence of the radioactive source decay to isotope iron-57, and isotope iron-57 in the same mixture with the loose of one electron becomes isotope iron-56, and with an availability of a free electron within the mixture by sharing of such free electron with isotope iron-56 and isotope iron-57 the element-113 (Uut) can be achieved, knowing that due to the motion of the free electrons within the liquid and the availability of metal iron the liquid within the containment does already posses a magnetic field which can facilitate the atomic welding (or sharing of the electron) for the creation of element-113 (Uut), element-114 (Uuq) and element-115 (Uup) depending on the availability of the free isotopes elements at the point of sharing, (Description: as the new elements will be magnetically neutral these new atoms will be of the order of dark matter, even thou the element has a heavier mass than the founding elements (iron), it will be invisible due to the balancing free electron shared between the two sub-elements, (This is the confirmation of the creation of dark matter within the core) where the new element (i.e. 113) possesses both magnetic characteristics of the original iron atoms, with the difference that for the two atoms to combine to make the new molecule, which in reality is a new atom of 113, will posses a balanced magnetic field characteristics, interlocked togather due to in reverse magnetic polarity of the two founding atoms. (This confirming the creation of dark matter ), where this new way of quasi instant combining and recombining elements and isotopes is temperature independent, and can be replicated for any and between any atoms, and their isotopes, or and of any element within the periodic table;
5. Method and chemical process, as described in claim 4, to create – even in temperature independent conditions - a magnetic parallel for any element within the periodic table, e.g. a magnet which can only attract copper, only attracts cadium, or only attracts uranium, which allows, for example, the use of such magnetic means for purification/separation systems and to attract in guided liquid water streams polluant elements from contaminated surface and groundwater; (to replace the existing centrifuge systems);
6. Initial material, as described in claim 1 and 2, where the liquid material is a mixture of liquid states of elements generally known as “metals”, where the activity modulating compound is of the formula A-B-C-D-E-F or the chemical acceptable liquid thereof wherein the groups A through F have the values:
Description: New atoms or molecules or isotopes of them, as described in claim 1, which can be used in all following patent claims and in all claims of the previous patent applications;
7. Method and chemical process, as described in claim 1 and 2, in conjunction – due to the (production) liberation of free electrons – and i.e. the solid metallic matter which is atomic and moleculear dilluted in liquid – and the containment (reactor) is put in motion, (by law of physics) – motion of electrons or the current they create with the dynamic metallic liquid -, leads to the controlled creation of magnetic fields within the liquid and it’s surrounding;
8. Magnetic fields, as described in claim 7, which are created in different hardware layers of the core, or by interacting layers of liquids – such as metallic liquid layers - or by interacting layers of the plasma’s inside the core(s);
9. Method and chemical process to create turbulence inside one or more cavities of the closed reactor, as described in claim 1 and 2, where the introduction of certain elements of the periodic table will create internal turbulence and motion inside of the gasses, metal(s) and liquid(s), and plasma(s) which – in specific combinations – will lead to a dynamic movement of the matters inside the cavity(ies), in example; Al, where the interaction of element Al and element K can create heat which leads to turbulence and motion of the liquid and gas(ses), and can lead to changes of state of the elements of such gas(ses) and liquid(s);
10. Method to create double magnetic fields in a closed reactor, as described in claim 1 and 2, where the energy input of radioactive source(s) leads to the change of the direction of polarities of the current, this leading to the change of the polarities of the magnetic fields in one or both ions (cores?) (method also on multilayered core), where the double magnetic fields can lead to a double interatomic fusion to push an electron to the nucleus, this leading to the release of energy;
11. Method to decay and recombine in a programmable way elements of the periodic table and their isotopes by provoking - in a closed reactor – as described in claims 1 and 2 - equipped with or containing nuclear sources and the correctly choosen initial material(s) - on the atomic and moleculair level controlled magnetic fields, including the strength of these magnetic fields and the direction of their polarities, – new method called bio-chemical-nuclear method – where it is possible to generate for just fractions of time new intermediate processing atoms and molecules – not limited to catalysts – which in normal reactions would oxidate (i.e. H20 and K), but now before oxidation can happen they already decay or recombine with other atoms, molecules, isotopes, ions, free electrons or fundamental particles, or where the emitted radiation prevents certain known chamical or biological combination;
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 (i.e. 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);
14. Method to create under following conditions differences of electric potency (voltage) and electrons movements (current) in a closed container (reactor):
a. which is built from materials means which resist the interactions of inside chemical and/or biological material(s) with nuclear sources or stays stable under said interactions during the preferred processing time,
b. which is equipped with at least one cavity to process said interactions,
c. which is equipped with at least one opening means to transport initial materials and/or nuclear sources into the reactor;
d. which is equipped with at least one closing means (140B) to close said opening,
e. which can be equipped initially with nuclear means (i.e. a nuclear source hanger 116A, a nuclear source fixed in or on a wall 123, 124, 116B, a nuclear source located in a separate cavity 126), further called fixed nuclear structures,
f. which can be equipped initially with mechanical means (221C) to enter a nuclear source (211B) into the preferred interacting reach with the targeted material(s), further called movable nuclear structures,
g. which can be equipped with nuclear shielding or protective means to protect the surrounding if the level of emitted radiation is considered to be hazardous,
h. which is equipped with at least one terminal to transport electrons (current) to the outside of the reactor,
but which is not equipped with:
i. mechanical hardware means to create inside motion of the materials or outside motion of the reactor itself,
j. any electromagnetic device (i.e. an inside magnet or coil),
k. any ultra-violet device (i.e. a lamp),
l. any heat-producing hardware (i.e. microwave emitting device),
m. any electronic device or component (like a capacitor, a battery, a resonance circuit, etc.) to ,
n. any pressure means to create artificial ambient conditions,
where abovementioned reactor-design has the sufficient hardware conditions to produce current when next steps are applied:
o. the intake/insert of initial (starting) material(s) into said reactor, where these initial material(s) can be chemical or biological material(s) or both, under the state of 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, where these initial material(s) may have been already been mixed with nuclear elements added before the insertion or added during the intake/inset (further called dynamic nuclear sources),abovementioned opening is closed to create a closed processing environment which can be chemo-nuclear processes, bio-nuclear processes or bio-chemical nuclear processes,
p. said initial material(s) come
i. either in direct contact with said fixed nuclear source(s)(123) and interact with the emitted radiation,
ii. either in interacting reach (126) with the radiation emitted by said fixed nuclear source(s,) and interact with the emitted radiation,
iii. either in contact or in interacting reach with the radiation emitted by said moveable nuclear source(s,) and interact with the emitted radiation,
iv. either with all nuclear sources of the reactor, and interact with the emitted radiation,
q. where if abovementioned dynamic nuclear sources are used in the process also the dynamic nuclear sources interact with the initial material(s),
r. where abovementioned kind of interactions (q. and r.) between the available nuclear sources and the initial material(s) create – depending from the composition of the initial material(s) and even of the construction material(s) of the reactor itself:
i. a number of new atomic and molecular elements of the periodic table and their isotopes which did not existed in the initial material(s) or which were not present in these quantities or degrees, where - for example - some of such new created isotopes may be new created radioactive sources themselves,
ii. leads to the creation of a volume of plasma matter and the release of a number of electrons (for example: the creation of atomic or molecular hydrogen by use of a chemical or biological matter and interaction with radioactive material),
iii. leads – in specific interactions – to changes of polarities due to reversal movement of electrons, resulting inter-atomic attraction of such atoms,
iv. leads to a self-sustaining interaction process in said closed reactor – which contains it’s proper ecological system with cosmological conditions - where not only said initial material(s) are the source of the new atomic or molecular elements and their isotopes, but said new created element(s) (atoms and/or molecules) are automatically ionized by the same radiation source(s) which leads to the creation of plasma and the liberation of electrons, and by any other radiations source(s) inside one or more cavities in/off the embodiment, possible wise by created radioactive isotopes;
where all abovementioned interactions create on one hand inside between the initial and new material(s) and plasma – but also on the other hand between them and the inside material(s) of the reactor itself and it’s proper potency relationship to the outer world (ground effects) – a multitude of differences of electric potency (voltage) and of internal electrons movements (current) inside the closed reactor, and these current(s) can be collected by at least one terminal (118, 178), but preferable collected by a plurality of terminals (Fig. 21) from which the heads of the electrodes are well distributed over the inside of the reactor cavity or of the reactor cavities;
15. Method and production process to make a reactor, as described in claim 14, that is battery-like (i.e. shaped as a 9V battery after ISO norms), where the opening means (as described in claim 1, point c.) and the related filling process, and the closure and fixation by the closing means (as described in claim 1, point d.) all happen during the manufacturing process of the internal parts, and then – in the next step - the internal parts are covered by covering means, which finally results is a battery-type of reactor that is completely close, except for the terminal means;
16. Method and production process to make a reactor, as described in claim 14, that is battery-like (i.e. shaped as a 9V battery after ISO norms), where the opening means (as described in claim 1, point c.) and the related filling process, and the closure and fixation by the closing means (as described in claim 1, point d.) all happen during the manufacturing process of the internal parts, where additionally refilling means are integrate in the concept which make it possible to refill at all times the reactor when additional initial material(s) is necessary, and then – in the next step - the internal parts are covered by covering means, which finally results is a battery-type of reactor that is completely close, except for the terminal means and the external refilling means;
17. Method and chemo-nuclear process to create in a closed reactor, as described in claims 1 and 2, self-sustaining energetic processes of decay’s and recombinations of and between nuclear source(s), various internal materials (initial material(s), new materials, new isotopes and fundamental particles, where in said reactor for example next process-steps or similar process-steps happen: 40K itself - through beta decay - becomes a source of radioactive material creating beta radiation, which through decay becomes a Ar gas, where the beta decay itself - with in interaction of the Ar gasses within the cavity created by previous decays of K - leads to the release of extreme EUV (this method known as scintillation of the Ar gas) magnetic waves, and this energy will lead to ionization of the hydrogen atoms or molecules, leading to the creation of plasma (i.e. H+) and free electrons, where the hydrogen plasma can interact with the K itself to acquire an electron and become a hydrogen atom or a molecule again, where the free electron from the hydrogen will release it’s energy (photon) to the Ar gas which is created, and for the electron to be able to be collected at the Ar level of mixture, creating this way in the closed reactor cavity(ies) for a given time – merely depending of the half-life time of the nuclear source(s) - a specific chemo-nuclear balancing ecological environment of prefered materials and state of matters;
18. Protection means, as described in claim 14 – point g - which consists of at least one concrete layer fully covering the reactor embodiment and where only transport means (terminal) for the electrons (current) leave the total volume;
19. Method and chemo-nuclear process to decay and recombine in (temperature independent way)...
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