Element:PLUT
Properties | |
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Section | Radioactive |
Spawn temperature | 26°C |
Heat Conductivity | 100% |
Relative weight | 90 |
Gravity | 0.4 |
Acid dissolve rate | 0% |
Flammability | 0 |
State | Powder |
Misc properties | |
Allows neutrons to pass through | |
Radioactive, harmful to STKM | |
Source code |
Creation
URAN has a small chance of spawning whenever NEUT passes through PLUT. The chance is higher under higher pressure. This reaction also produces LAVA and tends to cause the PLUT to go critical.
URAN can be created by molten ROCK, with 1/390625 frequency, while under 100+ pressure and at least 4726.85C.
URAN can be created by through PROT collisions. At very high velocities (420 - 700), PROT collisions may produce URAN.
Description
Fissile. Becomes more unstable under pressure, on contact with lightning (THDR/LIGH), or with a high amount of neutrons. The reaction produces a uranium particle, a neutron and Molten Plutonium. Molten plutonium will remain at max temp for a few frames after the reaction. When cooled, the ctype changes to stone.
Fission
Modeling real life, when a neutron hits a large amount of PLUT, it splits off in two. Every time a new neutron is formed, a flash of heat can be seen using heat color. PLUT will not react with neutrons if the pressure is lower than -2.00.
Luminous properties
When hit with white light, PLUT reflects most of it as green light with tiny yellow and blue lines in the spectrum. PLUT will absorb pure blue light, but the first state of heating a blue filter produces light with blue emission lines and a single light blue emission line. When this light strikes PLUT, it reflects retaining only the singe light blue emission line. PLUT will reflect light with the spectrum that is produced by uranium with the same green lines but fewer yellow lines. This spectrum is different from the traditional spectrum of light bounced off of PLUT. More data is currently being researched on the luminous properties of PLUT.
Language: | English |
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