Gans making
PLASMA FIELD INTERACTION METHOD, courtesy Lisa MacDonald, also Sandor Kakasi
In this method of GaNS making the role played by the atomic weight of the atoms in the metals needs to be understood. The production of CO2 and CH3 fall into this category.
Let us look at CO2:
We use a nano coated copper plate and a zinc plate.
When nano coating, we drop the atomic mass down by 5%.
Cu = approx. 63 minus 5% =59
The difference therefore between the nc copper and zinc plates is 6.
This is the number of neutrons in carbon C6.
There is also a portion of graphene {carbon} on the layers of nano coating which gives plasmatic energy of carbon. The plasmatic field will pull in any passing c6 and combine them with oxygen from the water. Carbon can come from the air, plastic box or other sources in your environment close enough to be captured in the field zone. Over time making gans the free oxygen depletes and production stops (not the C field) small bubbles around container are probably Hydrogen.
We are only looking for a plasma field strength and that is why we draw the current with an LED, so no actual amps or volts are passed through the superconducting nanolayers. Mostly Co2 gans is created if using an LED, or just twisted wires will give mostly ZnO. In both cases the natural galvanic rather than electrolytic process yields higehr quality gans.
In this method of GaNS making the role played by the atomic weight of the atoms in the metals needs to be understood. The production of CO2 and CH3 fall into this category.
Let us look at CO2:
We use a nano coated copper plate and a zinc plate.
When nano coating, we drop the atomic mass down by 5%.
Cu = approx. 63 minus 5% =59
The difference therefore between the nc copper and zinc plates is 6.
This is the number of neutrons in carbon C6.
There is also a portion of graphene {carbon} on the layers of nano coating which gives plasmatic energy of carbon. The plasmatic field will pull in any passing c6 and combine them with oxygen from the water. Carbon can come from the air, plastic box or other sources in your environment close enough to be captured in the field zone. Over time making gans the free oxygen depletes and production stops (not the C field) small bubbles around container are probably Hydrogen.
We are only looking for a plasma field strength and that is why we draw the current with an LED, so no actual amps or volts are passed through the superconducting nanolayers. Mostly Co2 gans is created if using an LED, or just twisted wires will give mostly ZnO. In both cases the natural galvanic rather than electrolytic process yields higehr quality gans.
These bottom two images show +ve LED leg to zinc plate, however the conventional way to connect for a Galvanic process is +ve leg to the Nano material. The solution is distilled water with 50-100g Sea salt or rock salt per Litre.
CH3
Nano coated copper plate: atomic mass 59 (from 63). Iron atomic mass: 56 therefore difference from copper of 3.
Nails etc. also have a mix of carbon in them. A Carbon plasmatic field is also created by the nc Cu plate which also has some graphene 6. It is a good idea to include a Zinc plate so that this 6 carbon strength from Cu and Zinc is also present.
Therefore, there are plasmatic field strengths of 6 and 3 in the tub.
The atomic mass plasmatic field strength of 3 is the strength of H3 so makes the pulling force for Hydrogen fields, Plasmatic Carbon fields then attach to 3 hydrogens obtained from the water..
The H3 in this GaNS is actually TRITIUM which is, 2 neutrons, one proton one electron. Due to its instability it radiates energy.
We must remember that CH3 gans as related to Iron as a source is about field strength differences, and that we are not equating CH3 with matter state Iron or any matter state molecule.
We need proper CH3 made this way for the magrav to work because it is the Gans that supplies the energy….
You can test CH3 gans with a magnet – true gans would NOT be magnetic
MINI ELECTROLYSIS METHOD
This method of making GaNS is used when you are wanting an oxide of a metal.
We take two metal plates that are the same. One is the nano coated version, one the plain metal.
We will then add a very small current to the two plates to encourage the nano of the metal to detach from the plate and combine with the oxygen in the water to create the metal oxide.
The current used in this process should be as low as possible to create a slow reaction so as to allow the combining with the oxygen. If the reaction is too fast, you may only detach the nano off the plate.
Each metal has a slight difference in conductivity and strength. Best results are usually achieved with 10 milliamps and 1 volt or less.
Examples of this technique are making CuO (copper oxide) GaNS (nano Cu and Cu plates), and purely ZnO (zinc oxide) GaNS (nano zinc and zinc plates)
We are also creating a field strength of the metal in the water between the plates. This field strength is that of the metal, as they are the same.
CAUSTIC {NaOH} and SALT WATER METHODS {NaCl}
In this method, which is used for making organic and metal GaNSes, we create the nanomaterial by using caustic to unbind the matter state to a nano state. We then take the nanoparticles and add them to salt water to bind the nano to oxygen from the water.
This process, when done with healing herbs, should be combined with the energies of Co2 to enhance its properties. The final rinse and holding liquid will be Co2 Gans water.
The Na in both phases of the GaNS creation, is the key to the process.
Nano coated copper plate: atomic mass 59 (from 63). Iron atomic mass: 56 therefore difference from copper of 3.
Nails etc. also have a mix of carbon in them. A Carbon plasmatic field is also created by the nc Cu plate which also has some graphene 6. It is a good idea to include a Zinc plate so that this 6 carbon strength from Cu and Zinc is also present.
Therefore, there are plasmatic field strengths of 6 and 3 in the tub.
The atomic mass plasmatic field strength of 3 is the strength of H3 so makes the pulling force for Hydrogen fields, Plasmatic Carbon fields then attach to 3 hydrogens obtained from the water..
The H3 in this GaNS is actually TRITIUM which is, 2 neutrons, one proton one electron. Due to its instability it radiates energy.
We must remember that CH3 gans as related to Iron as a source is about field strength differences, and that we are not equating CH3 with matter state Iron or any matter state molecule.
We need proper CH3 made this way for the magrav to work because it is the Gans that supplies the energy….
You can test CH3 gans with a magnet – true gans would NOT be magnetic
MINI ELECTROLYSIS METHOD
This method of making GaNS is used when you are wanting an oxide of a metal.
We take two metal plates that are the same. One is the nano coated version, one the plain metal.
We will then add a very small current to the two plates to encourage the nano of the metal to detach from the plate and combine with the oxygen in the water to create the metal oxide.
The current used in this process should be as low as possible to create a slow reaction so as to allow the combining with the oxygen. If the reaction is too fast, you may only detach the nano off the plate.
Each metal has a slight difference in conductivity and strength. Best results are usually achieved with 10 milliamps and 1 volt or less.
Examples of this technique are making CuO (copper oxide) GaNS (nano Cu and Cu plates), and purely ZnO (zinc oxide) GaNS (nano zinc and zinc plates)
We are also creating a field strength of the metal in the water between the plates. This field strength is that of the metal, as they are the same.
CAUSTIC {NaOH} and SALT WATER METHODS {NaCl}
In this method, which is used for making organic and metal GaNSes, we create the nanomaterial by using caustic to unbind the matter state to a nano state. We then take the nanoparticles and add them to salt water to bind the nano to oxygen from the water.
This process, when done with healing herbs, should be combined with the energies of Co2 to enhance its properties. The final rinse and holding liquid will be Co2 Gans water.
The Na in both phases of the GaNS creation, is the key to the process.