Noble gases are generally unreactive due to their full outer electron shells, making them stable. However, under certain conditions such as high pressure or high temperature, noble gases can react with atoms of other elements to form compounds. This occurs as these conditions can force electrons from the noble gas to form bonds with other atoms, allowing them to combine.
Atoms of elements in group 18 (noble gases) do not easily combine with other elements to form compounds.
Noble gases are considered inactive and do not react with any other substance/element.
The noble gases stay single. These include Helium, neon, argon, krypton, xeon, and radon.
Noble gases have a complete outer electron shell, making them highly stable and unreactive. As the atomic radii decrease, the outermost electrons are held more tightly by the nucleus, making it difficult for other atoms to remove them and form bonds with the noble gases. This stability is the reason why noble gases do not readily react with other atoms.
Noble gases are generally unreactive due to their full outer electron shells, making them stable. However, under certain conditions such as high pressure or high temperature, noble gases can react with atoms of other elements to form compounds. This occurs as these conditions can force electrons from the noble gas to form bonds with other atoms, allowing them to combine.
Atoms of elements in group 18 (noble gases) do not easily combine with other elements to form compounds.
No
Noble gases are considered inactive and do not react with any other substance/element.
The noble gases stay single. These include Helium, neon, argon, krypton, xeon, and radon.
Noble gases have a complete outer electron shell, making them highly stable and unreactive. As the atomic radii decrease, the outermost electrons are held more tightly by the nucleus, making it difficult for other atoms to remove them and form bonds with the noble gases. This stability is the reason why noble gases do not readily react with other atoms.
These gases generally dont react with any other elements and hence are considered 'noble'.
false
Noble gases have 8 valence electrons (except helium which has 2), have completely filled orbitals and hence stable electronic configuration. Hence they do not react with other element at S.T.P.
Generally No. Noble gases have completely filled orbitals. They generally have 8 valence electrons (helium has only 2) and have stable electronic configuration. Hence they are chemically inert and generally donot form compounds under normal conditions. But xenon, krypton are known to form covalent compounds such as XeF2 or KrF2 etc.
Noble gases that do not react with other elements are called inert gases. These gases have a full outer electron shell, making them stable and unreactive under normal conditions. Examples include helium, neon, argon, krypton, xenon, and radon.
Noble gases