The specific conductance of acetic acid is at a certain temperature. The dissociation constant of acetic acid is _____ . (Nearest integer)
Consider limiting molar conductivity of CHCOOH as .
The specific conductance of acetic acid is at a certain temperature. The dissociation constant of acetic acid is _____ . (Nearest integer)
Consider limiting molar conductivity of CHCOOH as .
Correct answer:66
Standard Method
Given:
Find: The dissociation constant in the form _____ .
First, calculate the molar conductivity:
Substituting the values,
Now, calculate the degree of dissociation:
For a weak acid,
Substituting the values,
Therefore, the dissociation constant is , so the required nearest integer is 66.
Stepwise Conductivity Approach
Given: , , and are provided.
Find: of acetic acid.
The solution uses the conductivity relation for weak electrolytes. First convert specific conductance into molar conductivity using
This gives
Next, use the ratio of molar conductivity to limiting molar conductivity to obtain the degree of dissociation:
Finally apply Ostwald's dilution law:
Substituting,
Hence,
Therefore, the answer is 66.
Using and in reverse. This is wrong because the observed molar conductivity must be smaller than the limiting value for a weak electrolyte. Use with observed value over limiting value.
Forgetting the factor of in . This is wrong because conductivity is given in and concentration in molarity, so the unit conversion is essential. Include before dividing by .
Applying directly and ignoring . This is inaccurate because the correct weak acid expression is . Always write the full relation unless an approximation is explicitly justified.
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