London forces are present in chlorine molecules.
Cl2 has a stronger intermolecular forces, London dispersion forces, as there are more electrons in Cl2 than in F2 It is the electrons that cause the instantaneous dipole-induced dipole interactions, more electrons = more dipoles and more easily induced dipoles = more london forces.
Dipole forces and London forces are present as intermolecular forces in these molecules.
Intermolecular because intermolecular forces occur between molecules, not within the same molecule. Specifically the forces are London dispersion forces, due to the interaction of instantaneous dipoles.
Intermolecular forces in C3CH2CH2NH2London disperiondipole-dipolehydrogen-bonding forces
is coupound
Cl2 has a stronger intermolecular forces, London dispersion forces, as there are more electrons in Cl2 than in F2 It is the electrons that cause the instantaneous dipole-induced dipole interactions, more electrons = more dipoles and more easily induced dipoles = more london forces.
Dipole forces and London forces are present as intermolecular forces in these molecules.
Intermolecular because intermolecular forces occur between molecules, not within the same molecule. Specifically the forces are London dispersion forces, due to the interaction of instantaneous dipoles.
Intermolecular forces in C3CH2CH2NH2London disperiondipole-dipolehydrogen-bonding forces
Dipole forces and London forces are present between these molecules.
is coupound
van der Waals forces of attraction
van der Waals forces of attraction.
Dipole forces and London forces are present between these molecules.
London forces are the only forces present in neon molecules.
dispersion, dipole-dipole, and hydrogen bonding forces
London dispersion forces