Dipole-dipole forces, as Na is positive, however Cl is negative. They cross each other out, but when coming into contact with other molecules, Na, the positive, attracts the Cl of the other molecule, which is the negative part, and so on.
Solid sodium chloride consists of a lattice of sodium and chloride ions. There are no sodium molecules in the solid, and therefore no intermolecular forces.
In solution sodium chloride is 100% dissociated and there are no molecules.
Vapour phase sodium chloride is iapparently a complex mixture of monomeric NaCl dimeric NaCl and linear polymers. Theoretically the monomer should be highly polar and more like an ion pair than a covalent molecule, nad we would expect a high dipole moment.
Sodium chloride has an ionic bond.
Ion-dipole force
Sodium chloride "formula units" form a very large lattice.
Intramolecular forces are not intermolecular forces !
Dispersion forces
Covalent bond
Hydrogens Bonds
Covalent bonds
No, covalency does not have its own intermolecular force
In pure water, the primary intermolecular force is a hydrogen bond, which is a specific type of dipole-dipole intermolecular force with notably more energy than most dipole-dipole intermolecular forces.
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Dipole - dipole and London Force
No. A covalent bond acts solely within a molecule.An intermolecular force acts between two or more separate molecules