The structures for this question weren't provided for me to choose from. The answer would be C. The structure has the combination in the middle C, C, O,H with three H's around the first C and one at the top of the second C.
A molecule, usually.
Yes, it does. It is composed of 2 Hydrogen ions covalently bonded (bent shape) to one Oxygen ion. Since they are covalently bonded, it is a molecule.
A sulfur molecule is 2 sulfur atoms covalently bonded. A sulfur dioxide molecule is a sulfur atom and 2 oxygen atoms covalently bonded.
Damond is covalently bonded, a giant molecule
Chlorine(I) Oxide is a covalently bonded molecule which has the same geometry as in water molecule.
A molecule, usually.
A Molecule
molecule
Yes, it does. It is composed of 2 Hydrogen ions covalently bonded (bent shape) to one Oxygen ion. Since they are covalently bonded, it is a molecule.
A sulfur molecule is 2 sulfur atoms covalently bonded. A sulfur dioxide molecule is a sulfur atom and 2 oxygen atoms covalently bonded.
O=O A molecule/diatomic atom of gaseous oxygen. Covalently double bonded. H-H A molecule/diatomic atom of gaseous hydrogen. Covalently single bonded. N to N A molecule/diatomic atom of gaseous nitrogen. Covalently triple bonded.
a molecule
A molecule.
The atoms in an ammonia molecule are covalently bonded.
Damond is covalently bonded, a giant molecule
Of the molecules given by formula in the question (after proper capitalization where needed), only Cl2 is covalently bonded.
A nonpolar covalently bonded homonuclear diatomic molecule.