pBlock ElementsII 1 Question 44

44. Based on the compounds of group 15 elements, the correct statement(s) is (are)

(2018 Adv.)

(a) $\mathrm{Bi} _{2} \mathrm{O} _{5}$ is more basic than $\mathrm{N} _{2} \mathrm{O} _{5}$

(b) $\mathrm{NF} _{3}$ is more covalent than $\mathrm{BiF} _{3}$

(c) $\mathrm{PH} _{3}$ boils at lower temperature than $\mathrm{NH} _{3}$

(d) The $\mathrm{N}-\mathrm{N}$ single bond is stronger than the $\mathrm{P}-\mathrm{P}$ single bond

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Answer:

Correct Answer: 44. (a,b,c)

Solution:

  1. Statement wise explanation is

(i) Statement (a) $\mathrm{Bi} _{2} \mathrm{O} _{5}$ is a metallic oxide while $\mathrm{N} _{2} \mathrm{O} _{5}$ is a non-metallic oxide.

Metallic oxides being ionic are basic in nature while non metallic oxides being covalent are acidic in nature. This confirms more basic nature of $\mathrm{Bi} _{2} \mathrm{O} _{5}$ in comparison to $\mathrm{N} _{2} \mathrm{O} _{5}$. Hence, this is a correct statement.

(ii) Statement (b) The electronegativity difference between N(3) and $\mathrm{F}(4)$ is less as compared to the electronegativity difference between $\mathrm{Bi}(1.7)$ and $\mathrm{F}(4)$. More electronegativity difference leads to ionic compounds. Thus, $\mathrm{NF} _{3}$ must be more covalent in nature as compared to $\mathrm{BiF} _{3}$. Hence, this statement is also correct.

(iii) Statement (c) In $\mathrm{NH} _{3}$ intermolecular hydrogen bonding is present, which is altogether absent in $\mathrm{PH} _{3}$. Thus, $\mathrm{PH} _{3}$ boils at lower temperature than $\mathrm{NH} _{3}$. Hence, this is also a correct statement

(iv) Statement (d) Due to smaller size of $\mathrm{N}$ the lone pair-lone pair repulsion is more in $\mathrm{N}-\mathrm{N}$ single bond as compared to $\mathrm{O}-\mathrm{P}$ single bond. This results to weaker $\mathrm{N}-\mathrm{N}$ single bond as compared to $\mathrm{P}-\mathrm{P}$ single bond. Hence, this statement is incorrect.



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