Yes they have full energy levels,this makes them stable.They are highly unreactive, to add on that ionisation is very high in noble gases.
Elements with complete outer energy levels are noble, which means that they will not bond with other elements. They are not (normally) reactive.
Noble gases.
The Inert Gases of Group 0 rarely combine with other elements as they are (exc. Radon) extremely unreactive. The Inert Gases are:HeliumNeonArgonKryptonXenon(Radon)
The column on the periodic table that contains elements with completely filled outer energy levels is the noble gases column (group 18 or Group 8A). These elements have a full outermost energy level, making them stable and less likely to form bonds with other elements.
This is the group 18, noble gases.
Yes, elements with a full outermost energy level, such as the noble gases, are generally unlikely to combine chemically with other elements. This is because they possess a stable electron configuration, which makes them less reactive. As a result, they have little tendency to gain, lose, or share electrons, minimizing their interactions with other elements.
All of the Noble Gases, which are on the right side of the periodic table, have a full outer energy level. The elements that are Noble Gases are the following: Neon Argon Krypton Xenon Radon Ununoctium
Noble Gases
in nuclear fusion i assume it is theoretically possible to combine any elements but in terms of chemical bonding, no some elements ie noble gases are very nonreactive, though the heavier noble gases do form compounds with oxygen and fluorine.
The noble or inert gases.
They r noble gases which have stable valance shell and grotp no. 18
Noble gases, such as helium, neon, and argon, typically do not form bonds with other elements because they already have a stable configuration of electrons in their outermost energy level. This makes them very unreactive.