SATHEE: Chemical Bonding And Molecular Structure Ques 127

Chemical Bonding And Molecular Structure Ques 127

127. Decreasing order of stability of $O_2, O_2^{-}, O_2^{+}$and $O_2^{2-}$ is :

[2015 RS]

(a) $O_2^{+}>O_2>O_2^{-}>O_2^{2-}$

(b) $O_2^{2-}>O_2^{-}>O_2>O_2^{+}$

(c) $O_2>O_2^{+}>O_2^{2-}>O_2^{-}$

(d) $O_2^{-}>O_2^{2-}>O_2^{+}>O_2$

Show Answer

Answer:

Correct Answer: 127.(a)

Solution:

(a) According to molecular orbital theory as bond order decreases stability of the molecule decreases

Bond order $=\frac{1}{2}(N_b-N_a)$

Bond order for $O_2^{+}=\frac{1}{2}(10-5)=2.5$

Bond order for $O_2=\frac{1}{2}(10-6)=2$

Bond order for $O_2^{-}=\frac{1}{2}(10-7)=1.5$

Bond order for $O_2^{2-}=\frac{1}{2}(10-8)=1.0$

hence the correct order is

$O_2^{+}>O_2>O_2^{-}>O_2^{2-}$

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Chemical Bonding And Molecular Structure

Chemical Bonding And Molecular Structure Ques 127

127. Decreasing order of stability of $O_2, O_2^{-}, O_2^{+}$and $O_2^{2-}$ is :

Answer:

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