Bond Angle
In a linear molecule like carbon dioxide, the characteristic angle between the atoms is 180 degrees. This is because the molecule is linear, with two oxygen atoms bonded to a central carbon atom in a straight line.
This molecule would have a linear shape, with a bond angle of 180 degrees between the two bonded atoms. The lone pairs would be situated on the same atom, causing repulsion that pushes the bonded atoms closer together.
When atoms become bonded with covalent bonds, the result is called a molecule. Covalent bonds involve the sharing of electron pairs between atoms, resulting in the formation of stable molecules with a specific chemical structure.
The structure of SO2 is a bent molecule with a central sulfur atom bonded to two oxygen atoms. The bond angle between the sulfur and oxygen atoms is approximately 119 degrees.
A charged group of covalently bonded atoms is called a polyatomic ion.
In any given molecule, the atoms will have a specific position with relation to the other atoms in the molecule, and if we draw imaginary lines from the nucleus of one atom to the nucleus of another atom, the lines are going to form angles, which are called bonding angles because they are the result of chemical bonds. For example, the water molecule forms approximately a 120o angle if you trace a line from one hydrogen, to the central oxygen, and then to the other hydrogen.
Molecules
The angle formed by two bonds to the same atom is called a dihedral angle or torsion angle. This angle represents the spatial orientation between two connected atoms and is important in determining the overall shape and stability of molecules.
two of the same elements bonded togather are called what ?
Hydrogen the molecule doesn't have a bond angle. You have to have an atom with at least two other atoms bonded to it to have a bond angle, and hydrogen has only two atoms total.
a molecule see http://en.wikipedia.org/wiki/Molecule
The two bonded fluorine atoms that form a neutral particle are called a fluorine molecule (F2). This molecule is formed by the sharing of a pair of electrons between the two fluorine atoms, resulting in a stable, nonpolar covalent bond.