Closed swagXDragonSlayer46YT closed 2 years ago
(Irradiation) Bismuth-210 (100% of naturally occurring bismuth) -> Bismuth-211 (Half life of 5 days)
(Decay Chamber) Bismuth-211 -> Polonium-Containing Bismuth-211
(Fluid Extractor) Polonium-Containing Bismuth-211 -> 144 mB Molten Polonium-Containing Bismuth-211
(Large Chemical Reactor) 10 b Molten Polonium-Containing Bismuth-211 + 2 Sodium Hydroxide Dust + 2 b Nitric Acid -> 10 b Irradiated Bismuth + 1 Polonium Trioxide (gas)
(Electrolyzer) 1 Polonium Trioxide -> 1 Polonium + 3 Oxygen
https://en.wikipedia.org/wiki/Polonium#Occurrence_and_production https://pubs.acs.org/doi/abs/10.1021/i260032a013
Produced from nuclear waste (handled by whatsapp2)
(Centrifuge) 5 Pitchblende Dust + 1 Sulfuric Acid + 100 mB Di-(2-ethylhexyl)phosphoric acid -> 3 Uraninite Dust + 1 b Uranium Sulfate Waste Solution
(Mixer) 1 b Uranium Sulfate Waste Solution + 5 Soda Ash Dust -> 1 b Irradiated Sulfate Solution
(Chemical Reactor) 1 b Irradiated Sulfate Solution + 1 b Hydrogen Sulfide -> 1 b Sulfuric Acid + 5 Irradiated Sulfate Dust
(Sifter) 5 Irradiated Sulfate Dust -> 5 Barium Carbonate Dust + a few tiny piles of radium
(Irradiation) 1 Radium-226 Dust + Deuterium Ions -> 1 Irradiated Radium Dust
(Electrolyzer) 1 b Nitric Acid + 1 b Epoxy Resin + 1 Irradiated Radium Dust -> 1 Filtered Radium Dust + 1 b Irradiated Epoxy Resin
(Electrolyzer) 1 b Nitric Acid + 1 b Fiber-Reinforced Epoxy Resin + 1 Filtered Radium Dust -> 1 Actinium-225 Dust + 1 b Irradiated Epoxy Resin
(Centrifuge) 5 Pitchblende Dust + 1 b Hydrobromic Acid + 100 mB Di-(2-ethylhexyl)phosphoric acid -> 3 Uraninite Dust + 1 b Uranium Waste Gases
(Burner Reactor) 1 b Uranium Gaseous Waste Solution + 1 Copper Pipe (N.C.) -> 1 b Dehydrated Uranium Waste Gases
(Chemical Reactor) 1 Potassium Hydroxide Dust + 1 Potassium Pentoxide Dust + 1 b Dehydrated Uranium Waste Gases -> 1 b Deacidified Uranium Waste Gases
(Cold Trap) 1 b Deacidified Uranium Waste Gases + 1 b Liquid Nitrogen -> 1 b Nitrogen + 0.1 b Natural Gas + 1 b Liquid Radon
(Fluid Heater) 1 b Liquid Radon -> 1 b Radon
Astatine is used for several medical and genetic purposes https://en.wikipedia.org/wiki/Astatine#Uses_and_precautions
(Chemical Bath) 100 mB molten Bismuth Trioxide + Copper Foil -> Astatine Target
(Irradiation) Astatine Target + Alpha Particles -> Astatine-Containing Target
(Burner Reactor) Astatine-Containing Target -> Nuclear Waste + 100 mB Volatized Astatine
(Cold Trap) 1 b Liquid Nitrogen + 1 b Volatized Astatine -> 1 b Nitrogen + 1 Astatine Dust
Polonium
(Irradiation) Bismuth-210 (100% of naturally occurring bismuth) -> Bismuth-211 (Half life of 5 days)
(Decay Chamber) Bismuth-211 -> Polonium-Containing Bismuth-211
(Fluid Extractor) Polonium-Containing Bismuth-211 -> 144 mB Molten Polonium-Containing Bismuth-211
(Large Chemical Reactor) 10 b Molten Polonium-Containing Bismuth-211 + 2 Sodium Hydroxide Dust + 2 b Nitric Acid -> 10 b Irradiated Bismuth + 1 Polonium Trioxide (gas)
(Electrolyzer) 1 Polonium Trioxide -> 1 Polonium + 3 Oxygen
https://en.wikipedia.org/wiki/Polonium#Occurrence_and_production https://pubs.acs.org/doi/abs/10.1021/i260032a013
Technetium
Produced from nuclear waste (handled by whatsapp2)
Radium
(Centrifuge) 5 Pitchblende Dust + 1 Sulfuric Acid + 100 mB Di-(2-ethylhexyl)phosphoric acid -> 3 Uraninite Dust + 1 b Uranium Sulfate Waste Solution
(Mixer) 1 b Uranium Sulfate Waste Solution + 5 Soda Ash Dust -> 1 b Irradiated Sulfate Solution
(Chemical Reactor) 1 b Irradiated Sulfate Solution + 1 b Hydrogen Sulfide -> 1 b Sulfuric Acid + 5 Irradiated Sulfate Dust
(Sifter) 5 Irradiated Sulfate Dust -> 5 Barium Carbonate Dust + a few tiny piles of radium
Actinium
(Irradiation) 1 Radium-226 Dust + Deuterium Ions -> 1 Irradiated Radium Dust
(Electrolyzer) 1 b Nitric Acid + 1 b Epoxy Resin + 1 Irradiated Radium Dust -> 1 Filtered Radium Dust + 1 b Irradiated Epoxy Resin
(Electrolyzer) 1 b Nitric Acid + 1 b Fiber-Reinforced Epoxy Resin + 1 Filtered Radium Dust -> 1 Actinium-225 Dust + 1 b Irradiated Epoxy Resin
Radon
(Centrifuge) 5 Pitchblende Dust + 1 b Hydrobromic Acid + 100 mB Di-(2-ethylhexyl)phosphoric acid -> 3 Uraninite Dust + 1 b Uranium Waste Gases
(Burner Reactor) 1 b Uranium Gaseous Waste Solution + 1 Copper Pipe (N.C.) -> 1 b Dehydrated Uranium Waste Gases
(Chemical Reactor) 1 Potassium Hydroxide Dust + 1 Potassium Pentoxide Dust + 1 b Dehydrated Uranium Waste Gases -> 1 b Deacidified Uranium Waste Gases
(Cold Trap) 1 b Deacidified Uranium Waste Gases + 1 b Liquid Nitrogen -> 1 b Nitrogen + 0.1 b Natural Gas + 1 b Liquid Radon
(Fluid Heater) 1 b Liquid Radon -> 1 b Radon
Astatine
Astatine is used for several medical and genetic purposes https://en.wikipedia.org/wiki/Astatine#Uses_and_precautions
(Chemical Bath) 100 mB molten Bismuth Trioxide + Copper Foil -> Astatine Target
(Irradiation) Astatine Target + Alpha Particles -> Astatine-Containing Target
(Burner Reactor) Astatine-Containing Target -> Nuclear Waste + 100 mB Volatized Astatine
(Cold Trap) 1 b Liquid Nitrogen + 1 b Volatized Astatine -> 1 b Nitrogen + 1 Astatine Dust