Cl2 is non polar.So there are london dispersion
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.
Yes,CH4 is non polar.So it has london dispersion.
Yes, the London dispersion force is very weak.
CH3OH has an H bond with an oxygen molecule, causing H bonding to be a force. It also has dipole-dipole interaction because it's a polar molecule. Thus, it has all three of the forces (including London dispersion).
Dispersion
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.
Cl2 is non polar.So there are london bonds.
The only intermolecular forces in this long hydrocarbon will be dispersion forces.
hydrogen, London dispersion, and dipole - dipole
Yes,CH4 is non polar.So it has london dispersion.
Yes, the London dispersion force is very weak.
Dipole-Dipole and covalent sigma bond forces.
CH3OH has an H bond with an oxygen molecule, causing H bonding to be a force. It also has dipole-dipole interaction because it's a polar molecule. Thus, it has all three of the forces (including London dispersion).
Dispersion
Dipole-dipole and dispersion
London dispersion forces
London dispersion forces (instantaneous induced dipole-dipole interactions.)