Oganesson: Uses And Characteristics With Its Atomic Properties

We elaborate the uses of oganesson element and atomic properties with characteristics. oganesson is a chemical element of unknown appearance with atomic number 118. Its symbol is ‘Og’ and it belongs to the group of transactinides and its normal state in nature is unknown. Oganesson is located at position 118 on the periodic table.

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On this page you can discover the chemical properties of oganesson and information about oganesson and other elements of the periodic table such as radon, tennessine, helium or boron. You will also learn what oganesson is for and know its uses through its properties associated with oganesson such as its atomic number or the usual state in which oganesson can be found.

You will be able to see qualities of oganesson such as its melting and boiling point, its magnetic properties or what its chemical symbol is. In addition, here you will find information on its atomic properties such as the distribution of electrons in oganesson atoms and other properties.

For some elements part of this information is unknown. In these cases we show the properties attributed to them.

Uses of Oganeson

Being a chemical element created in the laboratory, it is synthetic, which is why it cannot be found in nature, it is highly radioactive and very heavy (transactinide).

Having been discovered recently, very little is known about this chemical element, researchers hope that it is a gas, it is part of the group of noble gases and is classified as a non-metal.

Until now, only one isotope of oganeson is known, U-294, which has a half-life of about 0.89 milliseconds, and when it disintegrates it becomes Lv-290.

Motivated by its relatively recent discovery, and that its use is focused on scientific research, it is not really known what oganeson is for.

With only a few atoms ever made, oganesson is not used commercially in our world today. More data needs to be collected before this item is a valuable source for technology or energy purposes.

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Health Effects of Oganeson

Oganesson doesn’t occur naturally, it has not been found in the earth’s crust, so there is no reason to consider its health hazards.

Effects of Oganeson on The Environment

Oganesson doesn’t occur naturally, it has not been found in the earth’s crust, so there is no reason to consider its environmental effects.

Oganesson Facts

Oganesson has an atomic number of 118, which represents the number of protons it contains in its nucleus. The element is large and has an atomic mass of 294 AMU. It is considered a noble gas element , which are the elements of group 18 that have the characteristics of being non-reactive and stable. However, studies have shown that this element is a radioactive metal. The elements radioactive contain nuclei are not stable and decompose slowly. More research is needed to prove this property. Furthermore, oganesson is believed to be a solid at room temperature. Heboiling point , the melting point and density still unknown on this element. Most of the elements are found naturally on Earth. However, some are made in the laboratory. Oganesson is known as an artificially produced element , which means that this element is created by man within the laboratory. To make these elements, the researchers use a process called induced radioactivity , a process in which new elements are made by bombarding or adding more protons and neutrons to the element’s nucleus.This method was first introduced by Ernest Rutherford in the early 20th century. Oganesson was made by bombarding californium with calcium ions or charged atoms. From the bombardment of californium and calcium, an isotope of oganesson was made. An isotope is another form of the element with the same number of protons but different numbers of neutrons. Neutrons have no charge and do not affect the state of the element, except to add weight to the element. Most isotopes have a half-life , which is considered the amount of time it takes or half the mass of the element to decompose into another element.Oganesson’s stable isotope, Og-294, has a half-life of 0.89 seconds and will decompose to Lv-290.

Properties of Oganesson Element

The state of oganesson in its natural form is unknown. Oganesson is a chemical element of unknown appearance and belongs to the group of transactinides. The atomic number of oganesson is 118. The chemical symbol for oganesson is Og. The boiling point of oganesson is (predicted) 320–380 [3] K degrees Kelvin or -272.15 degrees Celsius or degrees Celsius.

Atomic Properties of Oganesson

The atomic mass of an element is determined by the total mass of neutrons and protons that can be found in a single atom belonging to this element. Regarding the position to find oganesson within the periodic table of elements, oganesson is found in group 18 and period 7. Oganesson has an atomic mass of (294) AMU.

The electron configuration of oganesson is [Rn] 5f14 6d10 7s2 7p6 (predicted) [3]. The electronic configuration of the elements determines the way in which the electrons are structured in the atoms of an element. The atomic radius or Bohr radius of oganesson is (predicted) 152 pm (Bohr radius) pm and its covalent radius is (extrapolation) 230 [2] pm pm. Oganesson has a total of 116 electrons whose distribution is as follows: In the first shell it has (prediction) 2 electrons, in the second it has 8 electrons, in its third shell it has 18 electrons, in the fourth, 32 electrons, in the fifth shell has 32 electrons, in the sixth, 18 electrons and in the seventh it has 8 [3] electrons.

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Characteristics of Oganesson Element

Below you can see a table that shows the main characteristics of Oganesson.

Chemical symbol Og
Atomic number 118
Group 18
Period 7
Appearance unknown
Block p
Density 13.65 kg / m3
Atomic mass (294) AMU
Atomic radio (prediction) 152 pm (Bohr Radio)
Covalent radius (extrapolation) 230 [2] pm pm
Electronic configuration [Rn] 5f14 6d10 7s2 7p6 (predicted) [3]
Electrons per shell (prediction) 2, 8, 18, 32, 32, 18, 8 [3]
Oxidation states 0, [4] +2 [5], +4 [5]
State unknown
Boiling point (prediction) 320–380 [3] KK
Heat of fusion (extrapolation) 23.5 [6] kJ / mol kJ / mol
Critical temperature (extrapolation) 439 [6] K
Critical pressure (6.8 · 103) [6] Pa

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