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Guide to Atmospherics: Difference between revisions
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Can be created when Nitrogen is combined with Tritium at extremely high temperatures. BZ works as a catalyst. 20:10 Nitrogen and Tritium respectively is consumed when one mole of Hyper-Noblium is condensed. Counter to the Nitrium reaction, BZ is not a requirement at all. But rather, it decreases how much the temperature / energy drops of your gas mix during the reaction. As such, BZ can often be entirely ignored. The minimum temperature for this reaction to occur is 5000000K, making fusion absolutely critical in its manufacturing process. | Can be created when Nitrogen is combined with Tritium at extremely high temperatures. BZ works as a catalyst. 20:10 Nitrogen and Tritium respectively is consumed when one mole of Hyper-Noblium is condensed. Counter to the Nitrium reaction, BZ is not a requirement at all. But rather, it decreases how much the temperature / energy drops of your gas mix during the reaction. As such, BZ can often be entirely ignored. The minimum temperature for this reaction to occur is 5000000K, making fusion absolutely critical in its manufacturing process. | ||
=== Anti-Noblium === | ===[[File:Antinoblium canister.png]]Anti-Noblium === | ||
The evil twin of Hyper-Noblium. Breathing it in will burn you from the inside out, even negating Hyper-Noblium's reaction and fire neutralizing properties in an explosive fashion. Expect anyone breathing this to die a very quick and painful death, especially Plasmamen. | The evil twin of Hyper-Noblium. Breathing it in will burn you from the inside out, even negating Hyper-Noblium's reaction and fire neutralizing properties in an explosive fashion. Expect anyone breathing this to die a very quick and painful death, especially Plasmamen. | ||
Created by using the electrolyzer on Hyper-Noblium at a 1:1 conversion ratio, and as a minor result in the Nitrium Energy Ball reaction. | Created by using the electrolyzer on Hyper-Noblium at a 1:1 conversion ratio, and as a minor result in the Nitrium Energy Ball reaction. | ||
===[[File: | ===[[File:Nitrium.png]]Nitrium=== | ||
Nitrium is created by combining Nitrogen, Plasma and BZ with at least 50 mols of N<sub>2</sub>O present as a catalyst. the ratio of gases is 5 parts Nitrogen, 2 parts Plasma, 2 parts BZ and 0.5 parts N20 which need to be heated to fusion temperatures for the gas to form. Nitrium can be used in internals mixed with oxygen for various effects. | Nitrium is created by combining Nitrogen, Plasma and BZ with at least 50 mols of N<sub>2</sub>O present as a catalyst. the ratio of gases is 5 parts Nitrogen, 2 parts Plasma, 2 parts BZ and 0.5 parts N20 which need to be heated to fusion temperatures for the gas to form. Nitrium can be used in internals mixed with oxygen for various effects. | ||
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===[[File:Dilithium_canister.png]]Dilithium=== | ===[[File:Dilithium_canister.png]]Dilithium=== | ||
Dilithium is procured from lavaland crystals by miners, then stuffed into a blender and mixed with water. This way, each crystal generates about 200 moles of gas. It lowers the temperature threshold required for fusion asymptotically to 425K depending on the amount. This makes it completely impractical and useless, unless it's used with a ''very specific and complicated Supermatter Engine setup''... | Dilithium is procured from lavaland crystals by miners, then stuffed into a blender and mixed with water. This way, each crystal generates about 200 moles of gas. It lowers the temperature threshold required for fusion asymptotically to 425K depending on the amount. This makes it completely impractical and useless, unless it's used with a ''very specific and complicated Supermatter Engine setup''... | ||
===[[File: | ===[[File:Freon_canister.png]]Freon=== | ||
On temperature lower than 0°C (273.15 K) Freon will create an endothermic reaction with O<sub>2</sub>, meaning it will absorb heat from the atmosphere, down to a minimum close to 50K. Adding Pluonium will catalyse the reaction so that it may begin at temperatures up to 310 kelvin, which is above room temperature. This reaction produces CO<sub>2</sub> and if the temperature is between 120-160K the reaction has a small chance to also produce solid sheets of hot ice . | On temperature lower than 0°C (273.15 K) Freon will create an endothermic reaction with O<sub>2</sub>, meaning it will absorb heat from the atmosphere, down to a minimum close to 50K. Adding Pluonium will catalyse the reaction so that it may begin at temperatures up to 310 kelvin, which is above room temperature. This reaction produces CO<sub>2</sub> and if the temperature is between 120-160K the reaction has a small chance to also produce solid sheets of hot ice . | ||
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If hit with a welder or burned the hot ice will melt, releasing the power stored inside. This releases large amounts of hot plasma into the air. (''Moles of plasma released = 150 '''x''' number of sheets'') and (''Heat released = 20 '''x''' number of sheets '''+''' 300K''). | If hit with a welder or burned the hot ice will melt, releasing the power stored inside. This releases large amounts of hot plasma into the air. (''Moles of plasma released = 150 '''x''' number of sheets'') and (''Heat released = 20 '''x''' number of sheets '''+''' 300K''). | ||
===[[File:H2.png]]Hydrogen=== | ===[[File:H2.png]]Hydrogen=== | ||
Hydrogen is a flammable gas which when ignited burns similarly to tritium. Hydrogen is made by electrolyzing Water Vapor with an electrolyzer machine. Hydrogen is solidified in a reaction with BZ as catalyst at high heat and pressure (over 1e4 for both) to produce metal hydrogen, which can be used to make armor, a fireaxe, and a Hardsuit. Metal Hydrogen can also be created within the [[Machines#Crystallizer|Crystallizer]]. | Hydrogen is a flammable gas which when ignited burns similarly to tritium. Hydrogen is made by electrolyzing Water Vapor with an electrolyzer machine. Hydrogen is solidified in a reaction with BZ as catalyst at high heat and pressure (over 1e4 for both) to produce metal hydrogen, which can be used to make armor, a fireaxe, and a Hardsuit. Metal Hydrogen can also be created within the [[Machines#Crystallizer|Crystallizer]]. | ||