Hydrogen bonding. Hydrogen bonding will occur whenever a hydrogen is directly bonded to a very electronegative atom, i.e. O,N,or F.
The strongest intermolecular force between two molecules of water in ice is hydrogen bonding.
When CH3CH2OH and H2O are mixed together to form a homogenous solution, CH3CH2OH forms additional hydrogen bonding with water molecules.
Molecules with hydrogen bonding have the strongest intermolecular forces. This includes molecules containing hydrogen bonded to highly electronegative atoms like oxygen, nitrogen, or fluorine. These intermolecular forces are stronger than other types such as dipole-dipole or van der Waals forces.
The strongest intermolecular force between hydrogen chloride molecules is dipole-dipole interactions. Hydrogen chloride is a polar molecule with a permanent dipole moment, so the positive hydrogen end of one molecule is attracted to the negative chlorine end of another molecule, leading to dipole-dipole interactions.
hydrogen bonding
The strongest intermolecular force between two molecules of water in ice is hydrogen bonding.
When CH3CH2OH and H2O are mixed together to form a homogenous solution, CH3CH2OH forms additional hydrogen bonding with water molecules.
Molecules with hydrogen bonding have the strongest intermolecular forces. This includes molecules containing hydrogen bonded to highly electronegative atoms like oxygen, nitrogen, or fluorine. These intermolecular forces are stronger than other types such as dipole-dipole or van der Waals forces.
The strongest intermolecular force between hydrogen chloride molecules is dipole-dipole interactions. Hydrogen chloride is a polar molecule with a permanent dipole moment, so the positive hydrogen end of one molecule is attracted to the negative chlorine end of another molecule, leading to dipole-dipole interactions.
hydrogen bonding
The intermolecular forces in CH3CH2OH (ethanol) include hydrogen bonding, dipole-dipole interactions, and London dispersion forces. Hydrogen bonding is the strongest force present due to the presence of the O-H bond, followed by dipole-dipole interactions between the polar covalent bonds in the molecule. London dispersion forces also play a role due to the temporary induced dipoles in the molecule.
The liquid with the highest heat of vaporization (400 J) will have the strongest intermolecular forces of attraction. This is because a higher heat of vaporization indicates that more energy is required to overcome the intermolecular forces holding the liquid molecules together, resulting in stronger attractions between the molecules.
This could be a catch question! NaBr is ionic and there are no molecules. The inter ionic forces are electrostatic.
The strongest intermolecular forces that would exist between molecules of NO would be dipole-dipole attractions. There are no hydrogen bonds formed, and so dipole-dipole would be the strongest. There will also be dispersion forces, but these are weaker than dipoles.
Intermolecular describes the interactions between separate molecules.
The strongest intermolecular forces that would exist between molecules of NO would be dipole-dipole attractions. There are no hydrogen bonds formed, and so dipole-dipole would be the strongest. There will also be dispersion forces, but these are weaker than dipoles.
A volatile liquid is easy to vaporize because there are weak intermolecular attractions between its molecules. A nonvolatile liquid is difficult to vaporize because there are strong intermolecular attractions between its molecules.