The first and second ionization constants of are and respectively. The concentration of in solution is _____ . (Nearest Integer)
JEE Chemistry 2026 Question with Solution
Answer
Correct answer:1
Step-by-step solution
Standard Method
Given: The first and second ionization constants of are and . The concentration of the acid is .
Find: The value of in the form _____ .
For the diprotic acid, the dissociation steps are
and
Since , the first ionization produces most of and , so .
Using the second ionization expression,
Therefore,
Now using ,
Therefore, the concentration of is and the value to be filled in the blank is 1.
Using the weak diprotic acid approximation
Given: , , and concentration of is .
Find: .
From the first dissociation of a weak acid,
For the second dissociation,
So,
Substituting ,
Hence,
Therefore, the required nearest integer is 1.
Common mistakes
Using instead of for calculating is incorrect because is formed in the second dissociation step. Use the equilibrium expression for , not the first ionization constant.
Assuming the concentration of is equal to the initial acid concentration is wrong because is a weak diprotic acid and the second dissociation is extremely small. The dianion concentration is controlled by .
Trying to solve the full equilibrium without using the approximation can lead to unnecessary complexity. Here, the key simplification is that from the first ionization, which directly gives .
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