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Rubiinium is the element with an atomic number of 915. It is very (although not completely) stable as its most stable isotope, Rubiinium-1833, has a half-life of about 3000 years. It was discovered by MrKathooloo on March 1st, 2020 and is named after the Finnish word for ruby, rubiini.
Chemical Properties[]
Reactions[]
Rubiinium is a very reactive element as it has only one valence electron. It reacts with most other elements, although it tends to react with elements with atomic numbers between 89 (actinium) and 132 (thomsonium). One such reaction is the reaction of rubiinium oxide and dimendelevium chloride to form rubiinium chloride and dimendelevium dioxide. The formula is as follows:
2Rbi2O + Md2Cl4 → 4RbiCl + Md2O2
Another reaction involving rubiinium is that of rubiinium fluoride and sodium hydroxide forming rubiinium hydroxide, and Sodium fluoride. This the formula:
RbiF + NaOH → RbiOH + NaF
Compounds[]
Rubiinium can form compounds with many elements. Some of the most common compounds include Rbi2Te (rubiinium telluride), RbiI (rubiinium iodide), and Rbi2Sc2 (rubiinium scandide). Some less common compounds are liquids, such as RbiPrSn (rubiinium tin praseodymide) and Rb4Ht (rubiinium Hhnteride). There is one compound that is a gas, RbiJp2Nu2NoNO (rubiinium jupiterium niueium nobelium nitrogen oxide), although it has only been created artificially.
The most important compound by far is RbiSfiSarTim (rubiinium safiirium smaragdium timanttide), also known as jalokivide. It completes the set of 4 similar elements named after Finnish words for different kinds of gems. This chemical is very interesting as while it is not wholly stable, it has a half-life of 40,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000 years, so long that the universe may very well end before any one of these compounds releases radiation. It can be extremely sharp, able to cut diamond with relative ease and most other materials with essentially no effort. This makes it useful for many things.
Hazards[]
While rubiinium is generally harmless, in can be dangerous if placed in the wrong hands. For example, when it touches mercury, an already dangerous element, it explodes violently. It heats up about 900°C when this happens, which can be a clear problem. It also can be very radioactive. Its most stable and most common isotope, Rubiinium-1833, has a half-life of 3000 years, but a much less common isotope, Rubiinium-1842, has a half-life of only about 5 minutes. This can cause it to be very dangerous, killing the average adult human within an hour.
The most likely cause of injury from rubiinium is computers. When rubiinium comes in contact with the rubidium on the screen (yes, rubidium is used in computer screens), it forms Rbi₂Rb (rubiinium rubidide), a very dangerous chemical that burns the skin upon contact. It can kill a person in the right conditions and almost always breaks the computer involved beyond repair.
Synthesis[]
While rubiinium is believed to exist somewhere in the universe naturally, it has only been synthesized on Earth. There are many ways of producing it, although there are a few common ones. The most common one is by using 13 atoms of promethium-141 and 122 atoms of hydrogen-1. This produces an atom of rubiinium-1833. The formula is as follows:
13Pm¹⁴¹ + 122H¹ → Rbi¹⁸³³
There is 1 other way that is common for synthesizing rubiinium. It is to use an atom of korium-466 and an atom of manchesterium-1389. This produces an atom of rubiinium-1855. This is the formula:
Ko⁴⁶⁶ + Man¹³⁸⁹ → Rbi¹⁸⁵⁵
There are many more ways to produce rubiinium. Here are some of them:
16Xe¹²⁹ + Si²² → Rbi¹⁸⁴⁶
5Bhz³⁶⁶ → Rbi¹⁸³⁰
915H² → Rbi¹⁸³³
You better enjoy this section because it took just about as much time as the rest of this combined.
Interesting Facts[]
- Rubiinium is very sharp on its own, although not as sharp as the compounds that contains it RbiSfiSarTim (see above).
- Rubiinium turns pink when in liquid form, and blue when in gas form.
- Rubiinium is unable to react with any of the alkaline earth metals.
- Rubiinium can be used in polymers, along with Carbon, Oxygen, Chlorine, or any other elements involved.
- Rubiinium shares many properties of the lanthanides, despite not being one itself.
- Rubiinium has over 50 isotopes, although only 2 of them are common.
- Some exoplanets and potentially some of the solar system's own planets are believed to contain rubiinium.
- Rubiinium usually looks like a ruby in its solid form, hence it being named after the Finnish word for ruby.
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