intermolecular
Intermolecular forces are based on electrostatic attraction and/or polarisation phenomena. Intramolecular bonds involve covalent bonds, polar or non-polar.
Hydrogen bonds are the strongest intermolecular bond, as opposed to intramolecular bonds (ionic, covalent and metallic). They are therefore comparatively weak (these are what is broken when a substance becomes gaseous). Intermolecular bonds exist, as the name suggests, between molecules.
Intra-molecular bonding ocuurs between atoms of the single large molecule ,where the inter-molecular bonding occurs between molecules ..
physical
Benzoic acid has an OH group which is polar, so it can form hydrogen bonds.
Intermolecular forces are based on electrostatic attraction and/or polarisation phenomena. Intramolecular bonds involve covalent bonds, polar or non-polar.
Intramolecular forces are not intermolecular forces !
Hydrogen bonds are the strongest intermolecular bond, as opposed to intramolecular bonds (ionic, covalent and metallic). They are therefore comparatively weak (these are what is broken when a substance becomes gaseous). Intermolecular bonds exist, as the name suggests, between molecules.
Heat. Intermolecular Hydrogen bonds (between two water molecules) are broken as water is heated to boil.The intramolecular hydrogen bonds (between H and O) stay intact
Intra-molecular bonding ocuurs between atoms of the single large molecule ,where the inter-molecular bonding occurs between molecules ..
physical
It can only form one intramolecular bond, and has its own type of intermolecular bond.
Intermolecular.
Benzoic acid has an OH group which is polar, so it can form hydrogen bonds.
Intramolecuar forces are covalent bonds these involve the sharing of electrons. Intermolecular bonds are electrostatic in origin such as hydrogen bonds and London disprion forces which involve attractions between small charges.
The covalent bond is an intramolecular bond.An example of compound having covalent bonds is carbon dioxide - CO2.
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.