There is one atom in argon. Argon is a "noble gas", which means that it occurs independently. This is true for all of the atoms on the final column of the Periodic Table.
http://en.wikipedia.org/wiki/Noble_gas
Argon is an element and all the atoms in argon are argon atoms.
Argon is a monatomic molecule because it exists as individual atoms (Ar) in its stable form, with no need to bond with other atoms. It is a noble gas with a full valence shell, making it energetically favorable to exist as a single, unreactive atom.
No, argon is an element in its atomic form. It is a noble gas with the chemical symbol Ar and atomic number 18. It exists as individual argon atoms rather than forming molecules.
No, argon exists as a monatomic gas, meaning it is composed of individual argon atoms rather than diatomic molecules. Argon is a noble gas and is chemically inert, so it does not readily form bonds with other atoms or molecules.
Like all the inert gases it is in atomic form. No molecules like Ar2 are possible. Atom
Argon (Ar) is an atom not a molecule. An atom is singular whereas a molecule is a group of two or more atoms.
the covalent radius of argon is 97 pico meter
Argon is an element and all the atoms in argon are argon atoms.
2.3 × 1024 atoms of Ar
Argon is a monatomic molecule because it exists as individual atoms (Ar) in its stable form, with no need to bond with other atoms. It is a noble gas with a full valence shell, making it energetically favorable to exist as a single, unreactive atom.
Approx 1.5*10^23 atoms.
1,67.1024 argon atoms is equal to 2,773 moles.
No, argon is an element in its atomic form. It is a noble gas with the chemical symbol Ar and atomic number 18. It exists as individual argon atoms rather than forming molecules.
No, argon exists as a monatomic gas, meaning it is composed of individual argon atoms rather than diatomic molecules. Argon is a noble gas and is chemically inert, so it does not readily form bonds with other atoms or molecules.
Like all the inert gases it is in atomic form. No molecules like Ar2 are possible. Atom
It is mostly found in the form of single atoms but can form Van der Waals molecules.
To find the number of argon atoms in a 40.0-g sample, you first need to calculate the number of moles of argon in the sample using the molar mass of argon (39.95 g/mol). Then, you can use Avogadro's number (6.022x10^23 atoms/mol) to determine the number of atoms in that many moles of argon.