MCQEasyJEE 2023Hydrogen Bonding

JEE Chemistry 2023 Question with Solution

Boric acid in solid, whereas BF3BF_3 is gas at room temperature because of:

  • A

    Strong ionic bond in Boric acid

  • B

    Strong van der Waal's interaction in Boric acid

  • C

    Strong hydrogen bond in Boric acid

  • D

    Strong covalent bond in BF3BF_3

Answer

Correct answer:C

Step-by-step solution

Standard Method

Given: Boric acid is solid at room temperature, whereas BF3BF_3 is a gas.

Find: The reason for the difference in physical state.

Boric acid has strong hydrogen bonding between its molecules, which increases intermolecular attraction and makes it solid at room temperature. BF3BF_3 has covalent bonds but does not show strong hydrogen bonding, so it remains a gas.

Therefore, the correct option is C: Strong hydrogen bond in Boric acid.

The solution shows option A, but the explanation clearly concludes that the correct answer is (3) Strong hydrogen bond in Boric acid. Hence the answer is taken as C from the solution working.

Explanation of Intermolecular Forces

Given: Compare boric acid and BF3BF_3 at room temperature.

Find: Which interaction explains why boric acid is solid.

The key distinction is intermolecular force, not merely the presence of covalent bonds. In boric acid, strong hydrogen bonding holds the molecules together in the solid state. In BF3BF_3, although the molecule contains covalent bonds internally, it lacks strong intermolecular hydrogen bonding.

So the stronger intermolecular attraction in boric acid is due to hydrogen bonding, which makes it solid at room temperature.

Common mistakes

  • Choosing covalent bond in BF3BF_3 as the reason is incorrect because covalent bonding explains bonding within a molecule, not why one substance is solid while another is gas. Focus on intermolecular forces instead.

  • Confusing hydrogen bonding with ionic bonding is incorrect because boric acid is not solid due to ionic character here. The relevant factor is strong hydrogen bonding between boric acid molecules.

  • Selecting van der Waal's interaction is incorrect because such forces are generally weaker than hydrogen bonding. The solid nature of boric acid is better explained by strong hydrogen bond formation.

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