It is the most stable form of oxygen as an element.
Yes, oxygen is a diatomic molecule, meaning it naturally forms O2.
It's chemical form would be the air and alot of molecular atoms that zoom around our heads every day.
I'm not sure if it is a compound, but it is a diatomic element, which means its atoms cannot be distributed evenly and it exists only in pairsNo it is a diatomic molecule of the element Oxygen,
All halogen molecules (F2, Cl2, Br2, I2) are bonded with a single covalent bond, this bond is not ionic but molecular.ionic molecules (do not exist) are joined. this is because when a diatomic molecule it transforms to a ionic molecule when its joined by a single covalent bond.
A hydrogen bond forms between the hydrogen(s) of one water molecule, and the oxygen molecule of another water molecule.
Yes, oxygen is a diatomic molecule, meaning it naturally forms O2.
Yes, oxygen is a diatomic normally. It forms a diatomic molecule with the formula O2. It is held together with a double covalent bond.
Oxygen, the element, has no formula. Its name is abbreviated as "O." Oxygen occurs naturally in two molecular forms, diatomic oxygen (whose formula is O2) and ozone (whose formula is O3).
Oxygen forms lots of covalent bonds, typically with carbon, hydrogen, nitrogen, or chlorine, or with other oxygen atoms in the case of the diatomic oxygen molecule.
A covalent bond
It's chemical form would be the air and alot of molecular atoms that zoom around our heads every day.
Nitrogen
nitrogen
Sulfur is not diatomic. It forms S8 molecules rather than S2.
Initially, each water molecule splits into two hydrogen atoms and one oxygen atom. These single atom forms of hydrogen and oxygen are highly reactive and soon pair with one another to form diatomic molecules of both hydrogen and oxygen.
An elements properties are determined by its electron structure. Oxygen has an electron structure that makes it a nonmetal and a gas.
The diatomic elements are: Hydrogen (H2), Nitrogen (N2), Oxygen (O2), Fluorine (F2), Chlorine (Cl2), Bromine (Br2), Iodine (I2), and probably astatine (At2), although I don't know whether enough astatine has ever been made to be sure!