Yes because chlorine molecules bond to themselves to become more stable.
They form the diatomic Chlorine molecule Cl2
A molecule made up of two atoms is called a diatomic molecule. A diatomic molecule can be composed of two of the same atoms, called a diatomic element. Hydrogen gas, H2, is an example of a diatomic element. A diatomic molecule can also be a compound composed of two atoms of different elements, such as carbon monoxide, CO.
The diatomic chlorine molecule has 1 sigma and 0 pi bonds.
there are 6 molecules of chlorine gas
pure covalent; ionic
Elemental chlorine exists as a diatomic molecule.
Which of the following does not occur naturally as a diatomic molecule? Chlorine, Hyrdogen, nitrogen or sulfur?
It is a diatomic molecule, i.e. it exists as Cl2
Cl2 is chlorine. Chlorine exists as a diatomic molecule.
Chlorine is an element, not a compound. Moreover, its a diatomic molecule, that is, a molecule of chlorine contains two atoms of chlorine.
They form the diatomic Chlorine molecule Cl2
Cl2 is a diatomic molecule.
Yes, this is essentially correct. We don't find chlorine in nature in an uncombined state, but when we make chlorine gas, it appears as the diatomic molecule Cl2.
The diatomic chemical formula of chlorine is Cl2.
Chlorine belongs to halogen family. chlorine exists as diatomic molecule in nature.
Cl2 (properly written the 2 would be a subscript - but that's tough to do here) represents a diatomic molecule of chlorine. At standard conditions, this is the form pure chlorine takes.
One chlorine molecule has an atomic mass of 35.453 g/mol. If it is diatomic, that means there are two atoms chemically bonded. Therefore: 2 * 35.453 = 70.906