Difference between revisions of "Element:DEUT"
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{{ infobox Element | {{ infobox Element | ||
| icon = DEUT.png | | icon = DEUT.png | ||
− | | longname = Deuterium | + | | longname = Deuterium (Oxide) |
| image = [[File:DEUTsticker.gif]] | | image = [[File:DEUTsticker.gif]] | ||
− | | advection = 0. | + | | identifier = DEFAULT_PT_DEUT |
− | | airdrag = 0. | + | | name = DEUT |
+ | | description = Volume changes with temp, radioactive with neutrons. | ||
+ | | colour = 00153F | ||
+ | | menusection = SC_NUCLEAR | ||
+ | | menuvisible = 1 | ||
+ | | advection = 0.6 | ||
+ | | airdrag = 0.01 | ||
| airloss = 0.98 | | airloss = 0.98 | ||
− | | | + | | loss = 0.95 |
− | | | + | | collision = 0 |
− | + | | diffusion = 0 | |
− | | diffusion = | ||
| explosive = 0 | | explosive = 0 | ||
| falldown = 2 | | falldown = 2 | ||
| flammable = 0 | | flammable = 0 | ||
− | | gravity = 0. | + | | gravity = 0.1 |
| hardness = 20 | | hardness = 20 | ||
− | | heatconduct = | + | | heatconduct = 251 |
− | + | | hotair = 0 | |
− | |||
− | |||
− | |||
− | | hotair = 0 | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
| meltable = 0 | | meltable = 0 | ||
− | |||
− | |||
| state = ST_LIQUID | | state = ST_LIQUID | ||
| temperature = 293.15 | | temperature = 293.15 | ||
− | | weight = | + | | weight = 31 |
+ | | properties = TYPE_LIQUID PROP_NEUTPASS | ||
+ | | lowtemperature = | ||
+ | | lowtemperaturetransition = | ||
+ | | hightemperature = | ||
+ | | hightemperaturetransition = | ||
+ | | lowpressure = | ||
+ | | lowpressuretransition = | ||
+ | | highpressure = | ||
+ | | highpressuretransition = | ||
}} | }} | ||
+ | |||
+ | Color: Dark blue, turns light blue or white when cooled, and turns into an even darker shade of blue when heated. | ||
+ | |||
+ | Deuterium is Hydrogen, but with an extra neutron. Deuterium Oxide is <sup>2</sup>H<sub>2</sub>O, water, but the hydrogen is deuterium. | ||
+ | |||
+ | DEUT expands and contracts depending on the temperature. | ||
+ | |||
+ | DEUT's compression is inversely proportional to its life, which in turn is inversely proportional to the temperature. Cooling DEUT will increase its life and compress it, making it explode more violently when exposed to neutrons. Conversely, heating DEUT will make it expand (up to about 5000 times its original size), making it explode less violently with neutrons (but there is more of it to explode). The life can be changed using the console, which will compress/expand DEUT without altering the temperature. Without the console, DEUT can reach a maximum life of 6000 at 0K (-273.15°C). | ||
+ | |||
+ | DEUT can also be compressed by increasing the gravity. With high gravity, DEUT can reach a maximum life of about 25000. | ||
+ | |||
+ | Shooting ELEC into DEUT will cool the DEUT gradually to 0K. | ||
+ | |||
+ | It is safe to try this at home- real Deuterium Oxide, or heavy water, or D<sub>2</sub>O, does not react with neutrons and is generally safe, *unless* you are exposed to very large amounts of it for a very long time. Deuterium Oxide itself is not radioactive, but normally contains higher than average amounts of tritium, which is radioactive. | ||
== Reactions == | == Reactions == | ||
+ | Deuterium Oxide will react violently when excessively exposed to [[Element:NEUT|NEUT]] or [[Element:PROT|PROT]]. With NEUT, it creates heat, NEUT, and pressure. With protons, it creates heat, PROT, and ''negative'' pressure. The amount of these effects depends on the life of the DEUT. The higher the life, the greater the reaction. | ||
− | + | == Creation == | |
+ | Deuterium Oxide can be created by mixing [[Element:WATR|WATR]] with [[Element:GLOW|GLOW]], you can speed up the reaction by boiling the water. | ||
+ | {|border="1" cellpadding="5" cellspacing="0" | ||
+ | |- | ||
+ | | This save shows an example of forming DEUT through the reaction of GLOW and WATR, in addition to being compressed through cooling. | ||
+ | | {{ save | id=3047578 }} | ||
+ | |} | ||
== Uses == | == Uses == | ||
− | + | Because of its reaction with NEUT, it can be used for bombs or of course nuclear reactors. | |
{{Languages}} | {{Languages}} | ||
[[Category:Elements]] | [[Category:Elements]] | ||
− | [[Category: | + | [[Category:Radioactive]] |
− |
Latest revision as of 01:23, 4 July 2024
Volume changes with temp, radioactive with neutrons. | |
Properties | |
---|---|
Section | Radioactive |
Spawn temperature | 20°C |
Heat Conductivity | 100% |
Relative weight | 31 |
Gravity | 0.1 |
Acid dissolve rate | 2% |
Flammability | 0 |
State | Liquid |
Misc properties | |
Allows neutrons to pass through | |
Source code |
Color: Dark blue, turns light blue or white when cooled, and turns into an even darker shade of blue when heated.
Deuterium is Hydrogen, but with an extra neutron. Deuterium Oxide is 2H2O, water, but the hydrogen is deuterium.
DEUT expands and contracts depending on the temperature.
DEUT's compression is inversely proportional to its life, which in turn is inversely proportional to the temperature. Cooling DEUT will increase its life and compress it, making it explode more violently when exposed to neutrons. Conversely, heating DEUT will make it expand (up to about 5000 times its original size), making it explode less violently with neutrons (but there is more of it to explode). The life can be changed using the console, which will compress/expand DEUT without altering the temperature. Without the console, DEUT can reach a maximum life of 6000 at 0K (-273.15°C).
DEUT can also be compressed by increasing the gravity. With high gravity, DEUT can reach a maximum life of about 25000.
Shooting ELEC into DEUT will cool the DEUT gradually to 0K.
It is safe to try this at home- real Deuterium Oxide, or heavy water, or D2O, does not react with neutrons and is generally safe, *unless* you are exposed to very large amounts of it for a very long time. Deuterium Oxide itself is not radioactive, but normally contains higher than average amounts of tritium, which is radioactive.
Reactions
Deuterium Oxide will react violently when excessively exposed to NEUT or PROT. With NEUT, it creates heat, NEUT, and pressure. With protons, it creates heat, PROT, and negative pressure. The amount of these effects depends on the life of the DEUT. The higher the life, the greater the reaction.
Creation
Deuterium Oxide can be created by mixing WATR with GLOW, you can speed up the reaction by boiling the water.
This save shows an example of forming DEUT through the reaction of GLOW and WATR, in addition to being compressed through cooling. | 3047578View save 3047578
|
Uses
Because of its reaction with NEUT, it can be used for bombs or of course nuclear reactors.
Language: | [[::Element:DEUT|English]] |
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