When HF vaporizes, the intermolecular bonds known as hydrogen bonds between HF molecules are broken. These hydrogen bonds are formed between the hydrogen atom of one HF molecule and the fluorine atom of another HF molecule due to the electronegativity difference between hydrogen and fluorine.
The intermolecular force in BF3 is London dispersion forces. This is because BF3 is a nonpolar molecule, so the only intermolecular force it experiences is the temporary weak attraction between temporary dipoles.
The lowest boiling point among CuCl2, HF, and MgCl2 is HF. This is because HF is a molecular compound with weaker intermolecular forces compared to the other two, which are ionic compounds with stronger electrostatic interactions between ions.
In the case of a covalent bond, the intramolecular force is stronger than the intermolecular force. The covalent bond holds atoms together within a molecule, while intermolecular forces are weaker interactions between molecules.
Hydrogen fluoride (HF) is less viscous than water (H2O) because HF molecules have lower intermolecular forces and weaker hydrogen bonding compared to water molecules. This results in easier flow of HF molecules past each other, reducing viscosity. Additionally, HF has a lower molecular weight and smaller size, which also contribute to its lower viscosity compared to water.
The dominant intermolecular force in HF is hydrogen bonding. This is a strong dipole-dipole attraction that occurs between the slightly positive hydrogen atom of one HF molecule and the slightly negative fluorine atom of another HF molecule.
Hydrogen fluoride, with the chemical formula HF, is a colorless gas that is the principal source of fluorine. The type of intermolecular forces that exist in HF are London forces, dipole-dipole.
intermolecular forces. In the case of HF, hydrogen bonding exists between HF molecules, which results in stronger intermolecular attractions compared to the London dispersion forces present in H2 and F2. These stronger intermolecular forces in HF allow it to exist as a liquid at room temperature.
intermolecular force
This is an intermolecular force.
When HF vaporizes, the intermolecular bonds known as hydrogen bonds between HF molecules are broken. These hydrogen bonds are formed between the hydrogen atom of one HF molecule and the fluorine atom of another HF molecule due to the electronegativity difference between hydrogen and fluorine.
Boiling point is a property not a force; but a high boiling point indicate a strong intermolecular force.
Gravity!
Intermolecular attraction
The intermolecular force in Ar (argon) is London dispersion forces, which are the weakest type of intermolecular force. This force is caused by temporary fluctuations in electron distribution around the atom, leading to temporary dipoles.
Intramolecular forces are not intermolecular forces !
The intermolecular force in BF3 is London dispersion forces. This is because BF3 is a nonpolar molecule, so the only intermolecular force it experiences is the temporary weak attraction between temporary dipoles.