Noble gases are usually inert. It is possible, however, to use a noble gas in a compound, such as XeF4, xenon tetrafluoride, but it is not common.
inert as in the inert gases or "noble" gases
The noble gases, column 18 in a wide form periodic table.
Carbon is chemically unreactive because it has a stable electronic configuration with four valence electrons, allowing it to form strong covalent bonds with other carbon atoms. This stability makes it less likely to readily react with other elements.
The unreactive gas in the second period is neon (Ne). It belongs to the noble gas group on the periodic table and is known for being chemically inert and not readily forming compounds with other elements.
Argon is chemically unreactive because it has a full outer electron shell, making it stable and less likely to form chemical bonds with other elements. It is characterized as a noble gas, which generally have very low reactivity due to their stable electronic configuration.
No. argon is chemically unreactive due to the presence of completely filled orbitals.
No. Lithium is highly reactive.
Neon is chemically unreactive and stable
Noble gases have a full valence shell. Reactions often take place in order for an atom to gain a full valence shell and then become chemically unreactive. Since the noble gases already have a full valence shell, they are unreactive (although some exceptions do aply)
inert as in the inert gases or "noble" gases
The noble gases, column 18 in a wide form periodic table.
The noble gases are almost chemically unreactive and they are located in group 18 of the periodic table.
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neon has completely filled energy levels and hence is generally chemically inert (or unreactive).
One atom of sodium is chemically symbolised (written as) 'Na'
Argon is a noble gas, argon is highly unreactive
Noble gases have completely filled orbitals. They are stable, chemically inert, do not generally form compounds and hence exist as isolated atoms.