MCQEasyJEE 2026Group 15 Elements

JEE Chemistry 2026 Question with Solution

Regarding the hydrides of group 1515 elements EH3EH_3 (E=N,P,As,Sb)(E = N, P, As, Sb), select the correct statement(s):

[A.] The stability of hydrides decreases down the group. [B.] The basicity of hydrides decreases down the group. [C.] The reducing character increases down the group. [D.] The boiling point increases down the group.

Choose the correct answer:

  • A

    A, B, C & D

  • B

    A, B & C only

  • C

    B & C only

  • D

    A & D only

Answer

Correct answer:A

Step-by-step solution

Standard Method

Given: Hydrides of group 1515 elements are EH3EH_3 where E=N,P,As,SbE = N, P, As, Sb.

Find: Which of statements A, B, C, D are correct.

Concept: Down group 1515, atomic size increases and the EHE-H bond strength decreases. This affects stability, basicity, reducing character, and boiling point.

Step 1: Stability of hydrides

NH3>PH3>AsH3>SbH3\text{NH}_3 > \text{PH}_3 > \text{AsH}_3 > \text{SbH}_3

Due to decreasing EHE-H bond strength down the group, the stability decreases down the group. Therefore, statement A is true.

Step 2: Basicity of hydrides Basicity depends on availability of the lone pair. As size increases, the lone pair becomes less available.

NH3>PH3>AsH3>SbH3\text{NH}_3 > \text{PH}_3 > \text{AsH}_3 > \text{SbH}_3

So, the basicity decreases down the group. Therefore, statement B is true.

Step 3: Reducing character Reducing character increases as the EHE-H bond weakens down the group.

NH3<PH3<AsH3<SbH3\text{NH}_3 < \text{PH}_3 < \text{AsH}_3 < \text{SbH}_3

Therefore, statement C is true.

Step 4: Boiling point Although NH3\text{NH}_3 shows hydrogen bonding anomaly, the overall boiling point increases down the group due to increasing molar mass. Therefore, statement D is true.

Conclude: All four statements are correct. The correct option is A.

Trend-Based Explanation

Given: The hydrides are NH3,PH3,AsH3,SbH3\text{NH}_3, \text{PH}_3, \text{AsH}_3, \text{SbH}_3.

Find: Use periodic trends to test each statement.

  1. Stability depends strongly on bond strength. Since the size of the central atom increases down the group, overlap with 1s1s of hydrogen becomes poorer and the EHE-H bond becomes weaker. Hence stability decreases.
  2. Basicity decreases down the group because the lone pair is held in a larger, more diffuse orbital and is less available for donation.
  3. Reducing character increases because weaker EHE-H bonds are broken more easily.
  4. Boiling point generally increases down the group because intermolecular forces increase with molar mass, even though NH3\text{NH}_3 shows hydrogen bonding.

Therefore, A, B, C and D are all correct, so the correct option is A.

Common mistakes

  • Assuming that basicity increases down the group because atomic size increases. This is incorrect here because the lone pair becomes less effectively available for donation. Use the trend NH3>PH3>AsH3>SbH3\text{NH}_3 > \text{PH}_3 > \text{AsH}_3 > \text{SbH}_3 for basicity.

  • Ignoring the role of decreasing EHE-H bond strength. This leads to wrong conclusions about stability and reducing character. Weaker bonds down the group mean lower stability but higher reducing nature.

  • Treating the boiling point trend as completely broken by hydrogen bonding in NH3\text{NH}_3. Although NH3\text{NH}_3 is anomalous, the overall boiling point trend still increases down the group because molar mass and dispersion forces increase.

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