A) \[{{H}_{2}}{{O}_{2}}<{{O}_{2}}<{{O}_{3}}\]
B) \[{{O}_{3}}<{{H}_{2}}{{O}_{2}}<{{O}_{2}}\]
C) \[{{O}_{2}}<{{O}_{3}}<{{H}_{2}}{{O}_{2~}}\]
D) \[{{O}_{2}}<{{H}_{2}}{{O}_{2}}<{{O}_{3}}\]
Correct Answer: C
Solution :
Bond length of \[O-O\] in \[{{O}_{2}}=\text{ }1.21\text{ }{\AA}\] |
Bond length of \[O-O\] in \[{{O}_{3}}=1.278\text{ }{\AA}\] |
Bond length of \[O-O\] in \[{{H}_{2}}{{O}_{2}}=1.49\text{ }{\AA}\] |
Therefore is: (bond order decrease in the same order) \[{{O}_{2}}<{{O}_{3}}<{{H}_{2}}{{O}_{2}}\]. |
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