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Question: What is the strongest intermolecular force in methanol?...

What is the strongest intermolecular force in methanol?

Explanation

Solution

Methanol is an alcohol. Alcohols are compounds having the hydroxyl group (OH)( - OH) attached to the alkyl group. The forces of attraction and repulsion between interacting particles are intermolecular forces. Intermolecular forces exist in all states of matter and are responsible for structural features and physical properties of matter.

Complete answer:
Hydrogen bond is the strongest intermolecular force in methanol.
Hydrogen bond is a case of dipole-dipole interaction. Hydrogen bond occurs when hydrogen is bonded to atoms of highly electronegative elements.
In methanol the oxygen of OH - OH group is bonded to sp3s{p^3} hybridised carbon by sigma bond. Three carbon sp3s{p^3} hybridised orbital overlap 1s1s hydrogen orbital, and in oxygen 1 sp31{\text{ s}}{{\text{p}}^3} hybrid orbital overlaps with 1s1s hydrogen orbital and the two sp3s{p^3} hybrid orbital contains lone pair of electrons.

There is a large difference in electronegativities of oxygen and hydrogen atoms, as a result the$$OHO - H bond is strongly polar and forms hydrogen bonds in alcohols (methanol).
Strong Hydrogen bonding is one of the reasons for the boiling points of alcohols to be higher than the corresponding isomeric ethers, aliphatic hydrocarbons and haloalkanes.

Note:
Methanol is also known as wood spirit as it was originally prepared by destructive distillation of wood. Methanol is a colorless liquid with boiling point 337 K337{\text{ K}}.It is miscible with water and also is highly poisonous in nature, it causes blindness or death. Methanol is used for denaturing ethyl alcohol that is making it unfit for drinking and it is also used as solvent for varnishes and manufacturing Formaldehyde, perfumes and drugs.