Hydrochloric acid (HCl) is classified as a molecular compound, despite its ability to dissociate into ions in aqueous solution. This behavior is characteristic of many acids, including HF and HBr, which exhibit partial ionic character due to their molecular structure. In the gas phase, HCl has a permanent dipole moment and can dissociate into neutral hydrogen and chlorine atoms when bond length increases. The enthalpy of solvation in aqueous solutions favors ionic dissociation, making the ionic pathway energetically favorable.
PREREQUISITESChemistry students, educators, and professionals interested in molecular and ionic compound behavior, particularly in the context of acid-base chemistry.
HCl is a stable molecule that can exist in the gas phase. As an isolated molecule, it has a permanent dipole moment, so the sharing of electrons in this molecule is not equal -- chemists would say that it shows partial ionic character. Interestingly, as you increase the bond distance of the molecule in the gas phase, it will dissociate into neutral hydrogen and neutral chlorine atoms (lowest energy path) -- i.e. the percent ionic character will decrease with increasing bond length. You can see the same behavior in a gas-phase NaCl molecule, as well. The diatomic molecule shows partial ionic character, but will dissociate to neutral atoms. You can read about some interesting chemical physics about the reverse process if you look up "harpoon mechanism".barryj said:I have thought the HCl is an ionic compound since it disassociates in water. However I read in my chemistry book that HCl is molecular. So what is it? Are all acids molecular or just the ones like HF, HCl, HBr, etc?